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ONT Isoform Functional Annotation (superseded)

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Type
CWL
Status
succeeded
Engine
cwltool
Duration
0.9 h
Source Data
Study Tissue-specific long-read transcriptome profiling of Helicoverpa armigera pupa
Sample prep Direct cDNA library prep of Helicoverpa head and body samples for nanopore sequencing 2024-06-27
Sequencing Nanopore sequencing of Helicoverpa head and body cDNA libraries 2024-06-28
Run Data Run #8 (1 samples)
Run Data Run #13 (1 samples)
Samples body_library head_library
Pipeline
ONT Long-Read Transcriptomics (IsoQuant)
Run #31
succeeded
ONT Isoform Functional Annotation (superseded)
Run #40 (this run)
succeeded 1 sources
Combined From

Sample Provenance

Process Chain
1
Direct cDNA library prep of Helicoverpa head and body samples for nanopore sequencing (2024-06-27) Labbook
Protocol: Direct cDNA sequencing V14 with SQK-LSK114
2 samples produced
2
Nanopore sequencing of Helicoverpa head and body cDNA libraries (2024-06-28) Labbook

Workflow

ONT Isoform Functional Annotation

#cwl

Software Tools

ToolVersionURL
cwltool - https://github.com/common-workflow-language/cwltool
eldudy007_isoseq:1.0.sif - -

Results Summary

Unique Reads
2,480,221
from upstream transcriptomics
rRNA Reads
2,286,155 (92.2%)
mRNA Reads
194,066
used for CPM calculation
Transcripts Annotated
6,956
Pfam Hit Rate
93.8%
SwissProt Hit Rate
74.9%
High-Confidence
6,110 (87.8%)
Tier 1–2
NMD Candidates
285 (4.1%)

Evidence Tier Distribution

Novel Isoform Discovery

Total Isoforms
6,956
Reference
6,232
Novel (IsoQuant)
724
717 with ≥3 reads, 7 low-support
Novel %
10.4%
DV Genes: Novel-Created
130
Variation only from novel isoforms
DV Genes: Novel-Contributed
17
Novel isoforms add to existing ref variation
DV Genes: Reference-Only
94
Variation from reference annotation alone

Long-read sequencing discovered 724 novel isoforms (10.4%). Of 241 domain variant genes, 130 (54%) show domain architecture variation only because of novel isoforms not present in the reference annotation. In 15 DV genes, only novel isoforms produced detectable ORFs.

Isoform Read Support (CPM from upstream transcriptomics)

Novel Expression Rate
100.0%
724 / 724 (717 with ≥3 reads)
Reference Expression Rate
96.3%
6,002 / 6,232
Novel Median CPM
41.2
median 8 reads (mean 19.2, range 0–403)
Ref Median CPM
15.5
Novel (n=724)
Reference (n=6,232)

Box plots show median (line), IQR (box), and 1.5×IQR whiskers. Individual isoform CPM values are overlaid as jittered points. Log10 scale; dashed line marks CPM = 1 expression threshold. Per-model CPM from OUT.transcript_model_counts.tsv

Novel Isoform Functional Impact

Domain Altered
55
7.6% of novel
NMD Candidates
188
26.0% of novel
ORF Disrupted
42
5.8% of novel
Conserved
253
34.9% — same protein

446 of 724 novel isoforms (61.6%) have SwissProt protein homologs. 186 isoforms have no detectable protein homolog. Top species: Drosophila melanogaster (112), Homo sapiens (50), Mus musculus (41), Bos taurus (20), Rattus norvegicus (17).

High-Impact Novel Isoforms (150)
Gene Impact Details ORF Reads CPM SwissProt

transcript855.NC_087142.1.nnic 		Domain altered Gained: DUF963 complete 290 1,494.3 sp|P80683|CUA3A_TENMO
67.0% — Larval cuticle protein A3A

transcript2344.NC_087134.1.nic 		Domain altered Lost: ApoO, CsoSCA, DBL, DUF1104, DUF2009, DUF3677, DUF4276, FAD_binding_7, HTH, HrpB2, SASP, SRP1_TIP1, Strep_SA_rep, TPR, Transpos_assoc, YbaB, tRNA_bind_arm
 complete 262 1,350.1 sp|E0X9F6|THAP1_THAPI
53.8% — Allergen Tha p 1

transcript88.NC_087129.1.nic 		Domain altered Gained: EGF complete 113 582.3

transcript1190.NC_087132.1.nnic 		Domain altered Lost: DUF1967
 complete 99 510.1 sp|Q24799|MYPH_ECHGR
58.3% — Myophilin

transcript1594.NC_087145.1.nic 		Domain altered Lost: EGF
 complete 71 365.9
Spn27A
transcript1284.NC_087142.1.nic 		Domain altered Lost: AEP
 complete 62 319.5 sp|Q9V3N1|SP27A_DROME
40.0% — Serine protease inhibitor 27A
BJSP-2
transcript1491.NC_087137.1.nnic 		Domain altered Lost: Di-copper, Hemocyanin_N
 complete 37 190.7 sp|Q06343|BJSB2_TRINI
82.7% — Basic juvenile hormone-suppres...
Haspin
transcript1636.NC_087126.1.nnic 		Domain altered Gained: TPR complete 34 175.2 sp|P83103|HASP_DROME
40.3% — Serine/threonine-protein kinas...
wat
transcript1096.NC_087148.1.nnic 		Domain altered Lost: NADP_Rossmann, Sterile
 complete 33 170.1
BJSP-2
transcript1498.NC_087137.1.nnic 		Domain altered Lost: Di-copper, Hemocyanin_N
 complete 27 139.1 sp|Q06343|BJSB2_TRINI
77.5% — Basic juvenile hormone-suppres...
Limd2
transcript40.NC_087145.1.nnic 		Domain altered Gained: P-loop_NTPase complete 25 128.8 sp|Q4KM31|LIMD2_RAT
43.3% — LIM domain-containing protein ...
COMP
transcript495.NC_087134.1.nic 		Domain altered Lost: Concanavalin, EGF, TSP3
 complete 25 128.8
Pls3
transcript55.NC_087145.1.nic 		Domain altered Gained: HTH complete 21 108.2 sp|Q63598|PLST_RAT
52.2% — Plastin-3
mknk2
transcript736.NC_087123.1.nnic 		Domain altered Gained: WS_DGAT_C complete 18 92.8 sp|Q66I46|MKNK2_XENTR
52.9% — MAP kinase-interacting serine/...
BJSP-2
transcript1500.NC_087137.1.nnic 		Domain altered Lost: Di-copper, Hemocyanin_N
 complete 17 87.6 sp|Q06343|BJSB2_TRINI
84.6% — Basic juvenile hormone-suppres...
Csrp1
transcript686.NC_087148.1.nnic 		Domain altered Gained: DUF4187 complete 17 87.6 sp|P97315|CSRP1_MOUSE
23.2% — Cysteine and glycine-rich prot...
TMEM214
transcript801.NC_087134.1.nnic 		Domain altered +NMD Lost: PcfK, Polo-box
 complete 17 87.6
Ccp84Ab
transcript1000.NC_087142.1.nnic 		Domain altered Lost: DUF963, MBB
 complete 15 77.3 sp|Q17015|CU01_ANOGA
61.8% — Cuticle protein

transcript116.NC_087129.1.nic 		Domain altered Lost: UPF0564
Gained: EGF 		complete 14 72.1
BJSP-2
transcript1495.NC_087137.1.nnic 		Domain altered Lost: Di-copper, Hemocyanin_N
 complete 14 72.1 sp|Q06343|BJSB2_TRINI
84.4% — Basic juvenile hormone-suppres...
TPD52L2
transcript991.NC_087122.1.nic 		Domain altered Lost: Erf4, HalX, OmpH, Peptidase_MA, Spore_III_AB
Gained: ATG17_like 		complete 14 72.1 sp|O43399|TPD54_HUMAN
34.5% — Tumor protein D54
BJSP-2
transcript1432.NC_087137.1.nnic 		Domain altered Lost: Di-copper, Hemocyanin_N
 complete 13 67.0 sp|Q06343|BJSB2_TRINI
85.8% — Basic juvenile hormone-suppres...
BJSP-2
transcript1531.NC_087137.1.nnic 		Domain altered Lost: Di-copper, Hemocyanin_N
 complete 13 67.0 sp|Q06343|BJSB2_TRINI
82.7% — Basic juvenile hormone-suppres...
SERCA
transcript95.NC_087128.1.nic 		Domain altered Lost: Peptidase_MA
 complete 13 67.0 sp|Q7PPA5|ATC1_ANOGA
90.5% — Calcium-transporting ATPase sa...

transcript112.NC_087129.1.nic 		Domain altered Lost: UPF0564
Gained: EGF 		complete 11 56.7
ARGK
transcript2437.NC_087122.1.nnic 		Domain altered Lost: DUF3723
 complete 11 56.7 sp|Q95PM9|KARG_PLOIN
95.2% — Arginine kinase
Gaa
transcript7.NC_087130.1.nnic 		Domain altered +NMD Lost: PX, PXA, RGS
 complete 11 56.7 sp|Q6P7A9|LYAG_RAT
41.8% — Lysosomal alpha-glucosidase
pix
transcript351.NC_087142.1.nnic 		Domain altered Lost: 4Fe-4S, RLI, VirE
 complete 10 51.5 sp|Q9VSS1|ABCE1_DROME
87.6% — Protein Pixie

transcript129.NC_087128.1.nnic 		Domain altered +NMD Gained: DUF3970 complete 9 46.4 sp|P42788|CBPZ_SIMVI
44.4% — Zinc carboxypeptidase (Fragmen...

transcript2585.NC_087123.1.nnic 		Domain altered Lost: E-set, Glyoxalase, SH3, Transthyretin
 complete 9 46.4 sp|P11734|CU08_LOCMI
71.2% — Cuticle protein 8
METAP1
transcript255.NC_087131.1.nnic 		Domain altered +NMD Lost: TRASH
 complete 8 41.2 sp|Q5ZIM5|MAP1_CHICK
71.3% — Methionine aminopeptidase 1

transcript710.NC_087122.1.nnic 		Domain altered Lost: Zn_Beta_Ribbon
 complete 8 41.2
SERCA
transcript81.NC_087128.1.nnic 		Domain altered +NMD Lost: Peptidase_MA
 complete 8 41.2 sp|Q7PPA5|ATC1_ANOGA
90.5% — Calcium-transporting ATPase sa...
ATPsyngamma
transcript468.NC_087143.1.nnic 		Domain altered Lost: WASH_WAHD
 complete 7 36.1 sp|O01666|ATPG_DROME
75.5% — ATP synthase subunit gamma, mi...

transcript1009.NC_087137.1.nnic 		Domain altered Lost: PET
 complete 6 30.9
Hrs
transcript1035.NC_087121.1.nic 		Domain altered Lost: TPR
 complete 6 30.9 sp|Q960X8|HRS_DROME
48.9% — Hepatocyte growth factor-regul...
bsdc1
transcript234.NC_087144.1.nic 		Domain altered Lost: DUF6449
 complete 6 30.9 sp|Q5BJ78|BSDC1_XENTR
33.3% — BSD domain-containing protein ...
bun
transcript2612.NC_087122.1.nnic 		Domain altered Gained: Ax_dynein_light, FtsL, Fzo_mitofusin, HTH, K-box, SNAPC5, TIM_barrel, Wtap, bZIP complete 6 30.9 sp|Q24522|BUN1_DROME
77.9% — Protein bunched, class 1/class...

transcript421.NC_087127.1.nnic 		Domain altered Lost: BDV_P10, PAM2, Tox-GHH2
 complete 6 30.9
PI31
transcript1475.NC_087122.1.nnic 		Domain altered Lost: PI31_Prot_N
 complete 5 25.8 sp|Q92530|PSMF1_HUMAN
48.3% — Proteasome inhibitor PI31 subu...

transcript229.NC_087128.1.nnic 		Domain altered Gained: DUF3970 complete 5 25.8 sp|P42788|CBPZ_SIMVI
44.7% — Zinc carboxypeptidase (Fragmen...
bun
transcript2610.NC_087122.1.nnic 		Domain altered Gained: Ax_dynein_light, FtsL, Fzo_mitofusin, HTH, K-box, MIT, SNAPC5, SOGA, TIM_barrel, Wtap, bZIP complete 5 25.8 sp|Q24522|BUN1_DROME
74.5% — Protein bunched, class 1/class...
rudhira
transcript47.NC_087129.1.nnic 		Domain altered +NMD Lost: HC2
 complete 5 25.8 sp|Q8SY41|BCAS3_DROME
45.0% — Breast carcinoma-amplified seq...

transcript478.NC_087129.1.nnic 		Domain altered Lost: FnI-like
 complete 5 25.8
LDLR
transcript59.NC_087122.1.nic 		Domain altered Lost: Calycin
 complete 5 25.8 sp|P20063|LDLR_RABIT
38.7% — Low-density lipoprotein recept...
Tctp
transcript789.NC_087125.1.nnic 		Domain altered Gained: Dim_A_B_barrel complete 5 25.8 sp|Q75VN3|TCTP_BOMMO
95.0% — Translationally-controlled tum...
CG18335
transcript1743.NC_087124.1.nnic 		Domain altered Gained: DUF5565 complete 4 20.6 sp|Q7JRP4|CMIP2_DROME
48.5% — CIMIP2 protein CG18335
abhd11
transcript2824.NC_087120.1.nic 		Domain altered Lost: Chlorophyllase2
 complete 4 20.6

transcript306.NC_087121.1.nic 		Domain altered +NMD Lost: Arc_MA
 complete 4 20.6
Csnk1g3
transcript142.NC_087136.1.nic 		Domain altered Lost: CK1gamma_C
 complete 3 15.5 sp|Q8C4X2|KC1G3_MOUSE
76.5% — Casein kinase I isoform gamma-...
Dsp1
transcript455.NC_087129.1.nnic 		Domain altered Gained: DUF4175, P-loop_NTPase complete 3 15.5 sp|Q24537|HMG2_DROME
64.6% — High mobility group protein DS...
14-3-3zeta
transcript721.NC_087122.1.nic 		Domain altered Lost: NPFF, NTF2
 complete 3 15.5 sp|Q2F637|1433Z_BOMMO
96.8% — 14-3-3 protein zeta

transcript800.NC_087133.1.nnic 		Domain altered Lost: PRCC
 complete 3 15.5
SERCA
transcript96.NC_087128.1.nic 		Domain altered Lost: Peptidase_MA
 complete 3 15.5 sp|Q7PPA5|ATC1_ANOGA
90.2% — Calcium-transporting ATPase sa...

transcript1599.NC_087145.1.nnic 		Domain altered Gained: P-loop_NTPase complete 0 0.0
RpS19a
transcript511.NC_087135.1.nic 		ORF disrupted Lost: Beta_propeller, DUF5684, E-set, HTH_12, Ldl_recept_a, Sortilin_C
 5prime_partial 232 1,195.5 sp|P39018|RS19A_DROME
66.9% — Small ribosomal subunit protei...
CP66
transcript963.NC_087125.1.nnic 		ORF disrupted 5prime_partial 104 535.9 sp|P45590|CU66_HYACE
78.2% — Larval/pupal rigid cuticle pro...
CP66
transcript1079.NC_087125.1.nnic 		ORF disrupted 5prime_partial 56 288.6
BJSP-2
transcript1511.NC_087137.1.nnic 		ORF disrupted Lost: Di-copper, Hemocyanin_N
 3prime_partial 34 175.2 sp|Q06343|BJSB2_TRINI
85.3% — Basic juvenile hormone-suppres...
HSD17B4
transcript34.NC_087134.1.nic 		ORF disrupted 5prime_partial 30 154.6 sp|P51659|DHB4_HUMAN
47.1% — Peroxisomal multifunctional en...
BJSP-2
transcript1526.NC_087137.1.nnic 		ORF disrupted Lost: Di-copper, Hemocyanin_N
 3prime_partial 29 149.4 sp|Q06343|BJSB2_TRINI
83.9% — Basic juvenile hormone-suppres...
PABPC1
transcript2880.NC_087122.1.nic 		ORF disrupted Lost: PABP, SLOG
 3prime_partial 26 134.0 sp|P21187|PABP_DROME
82.5% — Polyadenylate-binding protein
LST
transcript1437.NC_087128.1.nic 		ORF disrupted 3prime_partial 22 113.4 sp|A0A173GP47|LST_PHOPY
40.0% — Luciferin sulfotransferase

transcript2838.NC_087122.1.nic 		ORF disrupted 3prime_partial 19 97.9

transcript484.NC_087124.1.nic 		ORF disrupted 5prime_partial 19 97.9 sp|O76485|CSK2B_SPOFR
100.0% — Casein kinase II subunit beta

transcript714.NC_087132.1.nnic 		ORF disrupted Gained: DsbC, NTF2 5prime_partial 18 92.8
Gst1
transcript758.NC_087133.1.nic 		ORF disrupted Lost: E-set, TypeIII_Chap
 5prime_partial 18 92.8 sp|P28338|GSTT1_MUSDO
58.7% — Glutathione S-transferase 1

transcript2231.NC_087142.1.nnic 		ORF disrupted Lost: Totivirus_coat
 5prime_partial 17 87.6
Prc1
transcript2332.NC_087135.1.nnic 		ORF disrupted 5prime_partial 14 72.1
RpL44
transcript2280.NC_087132.1.nnic 		ORF disrupted 5prime_partial 10 51.5 sp|Q9NB33|RL44_OCHTR
81.6% — Large ribosomal subunit protei...

transcript906.NC_087129.1.nnic 		ORF disrupted Lost: Mad2, UPF0564
Gained: S4, TBD 		5prime_partial 10 51.5
Tmbim6
transcript1925.NC_087128.1.nnic 		ORF disrupted Lost: 2heme_cytochrom, GPCR_A
Gained: ANIS5_cation-bd, DHHC, DUF1140, DUF3381, DUF3764, Flavi_NS4A, Inhibitor_I53, Inhibitor_I69, NADP_Rossmann, PBP1_TM, RNA_pol_3_Rpc31, Spb1_C, Tom22 		5prime_partial 9 46.4 sp|Q5ZKM1|SPB1_CHICK
60.3% — pre-rRNA 2'-O-ribose RNA methy...
EIF5B
transcript1238.NC_087129.1.nic 		ORF disrupted 3prime_partial 8 41.2
SmydA-8
transcript1679.NC_087125.1.nnic 		ORF disrupted 5prime_partial 8 41.2

transcript292.NC_087129.1.nnic 		ORF disrupted Lost: UPF0564
Gained: EGF 		3prime_partial 8 41.2
spen
transcript108.NC_087137.1.nic 		ORF disrupted Lost: RRM
Gained: HTH 		5prime_partial 7 36.1 sp|Q8SX83|SPEN_DROME
40.7% — Protein split ends

transcript1163.NC_087133.1.nnic 		ORF disrupted 5prime_partial 7 36.1

transcript304.NC_087126.1.nnic 		ORF disrupted 5prime_partial 7 36.1
unc-22
transcript202.NC_087145.1.nnic 		ORF disrupted Lost: Beta_propeller, DUF3146, PKinase
Gained: DUF5991 		3prime_partial 6 30.9 sp|Q23551|UNC22_CAEEL
32.8% — Twitchin
RpS19a
transcript3.NC_087135.1.nnic 		ORF disrupted Lost: DUF5684, HTH, HTH_12
 5prime_partial 6 30.9 sp|Q98930|SORL_CHICK
36.9% — Sortilin-related receptor (Fra...

transcript1438.NC_087122.1.nnic 		ORF disrupted 5prime_partial 5 25.8 sp|P35042|TRYP_CHOFU
66.0% — Trypsin CFT-1
nhl-1
transcript2076.NC_087127.1.nic 		ORF disrupted Lost: Beta_propeller, DUF5754
Gained: BBOX, Bacillus_HBL, DUF6148 		3prime_partial 5 25.8 sp|Q03601|NHL1_CAEEL
40.5% — RING finger protein nhl-1
Arglu1
transcript2397.NC_087125.1.nnic 		ORF disrupted Gained: SR-25 3prime_partial 5 25.8
Ar1
transcript319.NC_087149.1.nnic 		ORF disrupted 5prime_partial 5 25.8 sp|M9PF61|ALDR_DROME
65.0% — Aldo-keto reductase 1B
wupA
transcript394.NC_087129.1.nic 		ORF disrupted Lost: DUF2362
 3prime_partial 5 25.8 sp|P36188|TNNI_DROME
87.2% — Troponin I

transcript1610.NC_087123.1.nnic 		ORF disrupted Gained: DUF4213 3prime_partial 4 20.6 sp|P11733|CU07_LOCMI
69.6% — Cuticle protein 7
MDH1
transcript2452.NC_087132.1.nnic 		ORF disrupted 5prime_partial 4 20.6 sp|Q5ZME2|MDHC_CHICK
66.7% — Malate dehydrogenase, cytoplas...
MAP3K7
transcript736.NC_087137.1.nnic 		ORF disrupted Lost: Dim_A_B_barrel, PKinase, YabA
Gained: FtsL, PRP1_N 		5prime_partial 4 20.6
Nadk
transcript1605.NC_087137.1.nic 		ORF disrupted 5prime_partial 3 15.5 sp|P58058|NADK_MOUSE
63.3% — NAD kinase
Mctp
transcript178.NC_087124.1.nnic 		ORF disrupted 5prime_partial 3 15.5 sp|A1ZBD6|MCTP_DROME
34.8% — Multiple C2 and transmembrane ...
TMEM165
transcript2217.NC_087144.1.nic 		ORF disrupted Lost: Pet100, TPR
Gained: AmpE_CobD-like, Strabismus 		3prime_partial 3 15.5 sp|Q9HC07|TM165_HUMAN
69.2% — Putative divalent cation/proto...
Bhmt
transcript2371.NC_087125.1.nnic 		ORF disrupted 5prime_partial 3 15.5 sp|Q9VJ31|BHMT_DROME
44.2% — Betaine-homocysteine S-methylt...

transcript2658.NC_087124.1.nnic 		ORF disrupted 3prime_partial 3 15.5
wupA
transcript395.NC_087129.1.nic 		ORF disrupted Lost: DUF2362
 3prime_partial 3 15.5 sp|P36188|TNNI_DROME
82.0% — Troponin I
unc-22
transcript50.NC_087145.1.nnic 		ORF disrupted Lost: Beta_propeller, DUF3146, PKinase
Gained: DUF5991, Mog1p_PsbP 		3prime_partial 3 15.5 sp|O01761|UNC89_CAEEL
24.5% — Muscle M-line assembly protein...
MAP3K7
transcript735.NC_087137.1.nnic 		ORF disrupted Lost: Dim_A_B_barrel, PKinase, YabA
Gained: FtsL 		5prime_partial 3 15.5

transcript1868.NC_087142.1.nic 		ORF disrupted 3prime_partial 0 0.0

transcript984.NC_087122.1.nnic 		NMD Gained: Col_cuticle_N 5prime_partial 211 1,087.3
ABCG1
transcript58.NC_087132.1.nnic 		NMD complete 86 443.2 sp|P45844|ABCG1_HUMAN
48.7% — ATP-binding cassette sub-famil...
Cd164
transcript612.NC_087126.1.nnic 		NMD complete 69 355.6 sp|Q9QX82|MUC24_RAT
51.9% — Sialomucin core protein 24
y
transcript197.NC_087123.1.nnic 		NMD complete 48 247.3 sp|Q9BI17|YELL_DROYA
38.6% — Protein yellow
GILT1
transcript280.NC_087149.1.nnic 		NMD complete 45 231.9 sp|Q95RA9|GILT1_DROME
37.1% — GILT-like protein 1
dyw
transcript165.NC_087126.1.nnic 		NMD complete 41 211.3 sp|O76879|CCCP_DROME
30.2% — Circadian clock-controlled pro...
CDase
transcript28.NC_087132.1.nnic 		NMD complete 40 206.1 sp|Q29C43|NCASE_DROPS
54.6% — Neutral ceramidase
Mmp10
transcript61.NC_087124.1.nnic 		NMD complete 39 201.0 sp|O55123|MMP10_MOUSE
41.1% — Stromelysin-2
Gcat
transcript93.NC_087134.1.nnic 		NMD 5prime_partial 38 195.8 sp|O88986|KBL_MOUSE
58.7% — 2-amino-3-ketobutyrate coenzym...

transcript398.NC_087122.1.nnic 		NMD complete 36 185.5

transcript1146.NC_087122.1.nnic 		NMD complete 33 170.1
Pa2g4
transcript176.NC_087131.1.nnic 		NMD complete 32 164.9 sp|Q6AYD3|PA2G4_RAT
58.5% — Proliferation-associated prote...
UBE2R2
transcript440.NC_087134.1.nnic 		NMD complete 30 154.6 sp|Q712K3|UB2R2_HUMAN
73.4% — Ubiquitin-conjugating enzyme E...
CarT
transcript69.NC_087148.1.nnic 		NMD complete 30 154.6 sp|Q9VIK2|CART_DROME
33.3% — Carcinine transporter
Kr-h2
transcript223.NC_087138.1.nnic 		NMD complete 29 149.4 sp|Q9V447|KRH2_DROME
51.3% — Krueppel homolog 2

transcript310.NC_087121.1.nnic 		NMD complete 28 144.3

transcript1243.NC_087141.1.nnic 		NMD 5prime_partial 27 139.1
CNDP2
transcript211.NC_087124.1.nnic 		NMD 5prime_partial 26 134.0 sp|Q3ZC84|CNDP2_BOVIN
58.6% — Cytosolic non-specific dipepti...

transcript468.NC_087124.1.nnic 		NMD 5prime_partial 26 134.0

transcript1404.NC_087126.1.nnic 		NMD 5prime_partial 25 128.8
Rala
transcript296.NC_087127.1.nnic 		NMD complete 25 128.8 sp|P48555|RALA_DROME
84.6% — Ras-related protein Ral-a

transcript806.NC_087133.1.nnic 		NMD complete 25 128.8 sp|Q9U505|AT5G_MANSE
88.5% — ATP synthase lipid-binding pro...
ADAMTS-1
transcript25.NC_087131.1.nnic 		NMD complete 24 123.7 sp|Q5W7F4|ATS1_BOMMO
70.9% — A disintegrin and metalloprote...

transcript3.NC_087127.1.nnic 		NMD Lost: DUF4456, TPR
Gained: ApoO, CAC1F_C, DUF445, Mis12, NIF3, P-loop_NTPase, YjbJ-CsbD-like 		complete 24 123.7

transcript700.NC_087124.1.nnic 		NMD 5prime_partial 23 118.5
PPAF2
transcript103.NC_087149.1.nnic 		NMD complete 22 113.4 sp|Q9GRW0|PPAF2_HOLDI
44.0% — Phenoloxidase-activating facto...

transcript1764.NC_087126.1.nnic 		NMD complete 22 113.4
egr
transcript222.NC_087122.1.nnic 		NMD complete 22 113.4 sp|Q8MUJ1|EIGER_DROME
28.3% — Tumor necrosis factor family m...
F26E4.3
transcript113.NC_087144.1.nnic 		NMD complete 21 108.2 sp|P90850|YCF2E_CAEEL
41.9% — Uncharacterized peptidase C1-l...
eRF1
transcript131.NC_087149.1.nnic 		NMD complete 20 103.1 sp|Q9VPH7|ERF1_DROME
93.3% — Eukaryotic peptide chain relea...
GILT1
transcript279.NC_087149.1.nnic 		NMD complete 20 103.1 sp|Q95RA9|GILT1_DROME
36.3% — GILT-like protein 1

transcript1115.NC_087134.1.nnic 		NMD 5prime_partial 19 97.9

transcript1210.NC_087141.1.nnic 		NMD complete 19 97.9
akr2e
transcript1230.NC_087146.1.nnic 		NMD 5prime_partial 19 97.9 sp|H9JTG9|AK2E4_BOMMO
46.1% — Aldo-keto reductase AKR2E4

transcript260.NC_087137.1.nnic 		NMD complete 19 97.9
Tmprss15
transcript1020.NC_087141.1.nic 		NMD complete 18 92.8 sp|P97435|ENTK_MOUSE
30.3% — Enteropeptidase
PTGER1
transcript2370.NC_087142.1.nnic 		NMD complete 18 92.8 sp|Q9BGL8|PE2R1_CANLF
25.9% — Prostaglandin E2 receptor EP1 ...

transcript754.NC_087136.1.nnic 		NMD complete 18 92.8 sp|P62972|UBIQP_XENLA
100.0% — Polyubiquitin (Fragment)
Hsd17b12
transcript1246.NC_087141.1.nnic 		NMD complete 16 82.5 sp|Q6P7R8|DHB12_RAT
49.3% — Very-long-chain 3-oxoacyl-CoA ...
BNIP3
transcript2569.NC_087150.1.nnic 		NMD complete 16 82.5 sp|Q12983|BNIP3_HUMAN
26.0% — BCL2/adenovirus E1B 19 kDa pro...

transcript369.NC_087124.1.nnic 		NMD complete 16 82.5
RMND5B
transcript45.NC_087135.1.nnic 		NMD complete 15 77.3 sp|Q96G75|RMD5B_HUMAN
40.4% — E3 ubiquitin-protein transfera...
RAB1A
transcript510.NC_087139.1.nnic 		NMD complete 15 77.3 sp|Q05974|RAB1A_LYMST
81.3% — Ras-related protein Rab-1A
VhaAC45
transcript1182.NC_087149.1.nnic 		NMD complete 14 72.1 sp|Q7JR49|VAS1_DROME
31.3% — V-type proton ATPase subunit S...
DNAJC7
transcript1961.NC_087125.1.nnic 		NMD complete 14 72.1 sp|Q99615|DNJC7_HUMAN
52.0% — DnaJ homolog subfamily C membe...
Vps28
transcript256.NC_087144.1.nnic 		NMD complete 14 72.1 sp|Q9V359|VPS28_DROME
69.7% — Vacuolar protein sorting-assoc...
SMIM14
transcript920.NC_087128.1.nnic 		NMD complete 14 72.1 sp|Q96QK8|SIM14_HUMAN
45.7% — Small integral membrane protei...

transcript122.NC_087141.1.nnic 		NMD complete 13 67.0
Slc30a2
transcript125.NC_087122.1.nnic 		NMD complete 13 67.0 sp|Q62941|ZNT2_RAT
57.2% — Proton-coupled zinc antiporter...
pi4k2b
transcript16.NC_087142.1.nnic 		NMD complete 13 67.0 sp|Q49GP5|P4K2B_DANRE
61.6% — Phosphatidylinositol 4-kinase ...

transcript1607.NC_087121.1.nnic 		NMD complete 13 67.0

transcript2057.NC_087144.1.nnic 		NMD complete 13 67.0

transcript1061.NC_087135.1.nnic 		NMD complete 12 61.8

Frame Impact Classification

Functional Diversity per Gene

Top Pfam Domains

Domain Architectures per Gene

Annotation QC: Pfam Artifact Detection

Related Pfam families are grouped into clans; proteins with anomalously high domain density (structural protein artifacts) are flagged separately. The cleaned set is used for all downstream analysis.

Original DV Genes
241
After QC Filtering
179
Removed (Artifacts)
62
Flagged Details
28
Flagged Artifacts (28)
Gene Gene Name Reason Arch (raw) Arch (collapsed) Core / Variable Domains
LOC110384212 density artifact 10 0 29 / 36
LOC110377875 density artifact 3 0 30 / 4
LOC135117277 Cdr2 density artifact 2 0 51 / 0
LOC110384286 density artifact 2 0 38 / 0
LOC110376902 Iru density artifact 2 0 30 / 0
LOC110374071 GUK1 density artifact 2 0 37 / 0
Rab32 RAB32 clan collapse 3 1 18 / 1
LOC110372031 SQOR clan collapse 2 1 8 / 0
LOC110377166 TMUB2 clan collapse 2 1 4 / 0
LOC110380363 Bhmt clan collapse 2 1 3 / 0
LOC110376460 KCNJ12 clan collapse 2 1 5 / 0
LOC110371622 RpL40 clan collapse 2 1 11 / 0
Diap1 IAP clan collapse 2 1 6 / 0
LOC110384521 Actn clan collapse 2 1 11 / 0
LOC110377229 AnxB9 clan collapse 2 1 5 / 1
LOC110375010 clan collapse 2 1 8 / 1
LOC110379953 MLC1 clan collapse 2 1 4 / 0
LOC110379868 lark clan collapse 2 1 10 / 0
LOC110369808 acp7 clan collapse 2 1 5 / 0
LOC110380619 nas-4 clan collapse 2 1 3 / 0
LOC110372702 Ubc2 clan collapse 2 1 3 / 0
LOC110384049 clan collapse 2 1 8 / 0
LOC110380328 AIFM1 clan collapse 2 1 8 / 0
LOC110376033 abcG23 clan collapse 2 1 9 / 0
LOC110369940 Mctp clan collapse 2 1 3 / 0
LOC110372103 Pc clan collapse 2 1 22 / 0
LOC110369716 Traf4 clan collapse 2 1 5 / 0
LOC110378339 Rho1 clan collapse 2 1 6 / 0

Domain Variants by Evidence Tier

Variable Domain Landscape

Total Variable Domains
109
Domain Loss Events
98
Domain Gain Events
15
Loss : Gain Ratio
6.5:1

Domain loss dominates gain ~7:1, consistent with alternative splicing predominantly removing exons encoding specific domains rather than inserting novel domain-encoding exons.

All Variable Domains (109)
Domain DV Genes Gain Loss Genes
Pkinase 2 0 2 MAP3K7, unc-22
PK_Tyr_Ser-Thr 2 0 2 MAP3K7, unc-22
Hemocyanin_N 2 2 0 BJSP-2, BJSP-2
Hemocyanin_M 2 2 0 BJSP-2, BJSP-2
PepSY_TM 1 1 0 rtn3-b
DUF3723 1 0 1 ARGK
DUF5684 1 0 1 RpS19a
HTH_12 1 0 1 RpS19a
Col_cuticle_N 1 0 1 LOC110381131
DUF3866 1 0 1 exd
YbjQ_1 1 0 1 exd
Ribosomal_60s 1 0 1 exd
Big_3_5 1 0 1 cher
EMP24_GP25L 1 0 1 cher
DUF3141 1 0 1 CP66
Bcl-2_BAD 1 0 1 znrf2
PRP21_like_P 1 0 1 znrf2
DUF4800 1 0 1 AnxB11
TFIIA 1 0 1 AnxB11
S4 1 1 0 LOC110371006
TBD 1 1 0 LOC110371006
UPF0564 1 0 1 LOC110371006
Toxin_17 1 1 0 LOC110371006
Ig_4 1 0 1 unc-22
Ig_5 1 0 1 unc-22
fn3 1 0 1 unc-22
PhoD_N 1 0 1 unc-22
Y_Y_Y 1 0 1 unc-22
Kre9_KNH 1 0 1 unc-22
Kelch_1 1 0 1 unc-22
Kdo 1 0 1 unc-22
Tissue_fac 1 0 1 unc-22
Receptor_2B4 1 0 1 unc-22
NDNF 1 0 1 unc-22
fn3_2 1 0 1 unc-22
Ig_C17orf99 1 0 1 unc-22
DUF3146 1 0 1 unc-22
Pur_ac_phosph_N 1 0 1 unc-22
PKD_3 1 0 1 unc-22
Mog1 1 0 1 unc-22
PADRE 1 0 1 E(z)
DUF4746 1 0 1 E(z)
NPR3 1 0 1 E(z)
DUF2828 1 0 1 E(z)
SpoIIP 1 0 1 E(z)
RPA43_OB 1 0 1 E(z)
TCR 1 0 1 E(z)
PH_8 1 0 1 Phldb2
PH_15 1 0 1 Phldb2
PH_3 1 0 1 Phldb2
RRM_DME 1 0 1 Phldb2
Yop-YscD_cpl 1 0 1 Phldb2
FHA 1 0 1 Phldb2
Totivirus_coat 1 0 1 LOC110378652
Presenilin 1 0 1 Doa
IPK 1 1 0 Doa
DnaJ-X 1 1 0 Doa
Porin_2 1 1 0 LOC110376808
Sublancin 1 1 0 LOC110376808
Retinin_C 1 0 1 LOC110370179
Lamprin 1 0 1 LOC110370179
rve 1 0 1 Sarm
SAP_new25 1 0 1 Sarm
rve_3 1 0 1 Sarm
MbeD_MobD 1 0 1 brat
MFS_1_like 1 0 1 APY
SOGA 1 0 1 bun
MIT 1 0 1 bun
DUF5866 1 1 0 BJSP-2
YabA 1 0 1 MAP3K7
APH 1 0 1 MAP3K7
DUF3291 1 0 1 MAP3K7
PRP1_N 1 0 1 MAP3K7
ATG17_like 1 0 1 TPD52L2
OmpH 1 0 1 TPD52L2
HalX 1 0 1 TPD52L2
Erf4 1 0 1 TPD52L2
Spore_III_AB 1 0 1 TPD52L2
Peptidase_M32 1 0 1 TPD52L2
OAD_gamma 1 0 1 eEF1delta
CRAM_rpt 1 0 1 lfe-2
DUF3810 1 1 0 SERCA
WS_DGAT_C 1 0 1 mknk2
ApoLp-III 1 0 1 LOC110383740
DUF4456 1 0 1 LOC110383740
ApoO 1 0 1 LOC110383740
CAC1F_C 1 0 1 LOC110383740
Phasin 1 0 1 LOC110383740
GBP_C 1 0 1 LOC110383740
NIF3 1 0 1 LOC110383740
DUF445 1 0 1 LOC110383740
FANCI_S3 1 0 1 LOC110383740
Mis12 1 0 1 LOC110383740
DUF883 1 0 1 LOC110383740
BDV_P10 1 0 1 LOC110383068
Tox-GHH2 1 0 1 LOC110383068
Hamartin 1 0 1 Jupiter
RNA_pol_Rpb1_2 1 0 1 LOC110372065
DUF3306 1 0 1 LOC110372065
DUF1263 1 0 1 E75
HrpB1_HrpK 1 0 1 Fur1
zf-C6H2 1 0 1 METAP1
zf-MYND 1 0 1 METAP1
MSSP 1 0 1 LOC110382745
DUF4213 1 1 0 LOC126056015
DUF4187 1 0 1 Csrp1
DUF2362 1 0 1 wupA
ApoM 1 0 1 LDLR
SH3_2 1 0 1 Mcf2l

Domain Variant Genes (179 genes, multiple architectures after QC)

All domain variant genes retaining multiple domain architectures after clan collapse and density artifact removal. Use the search box to filter by gene ID, name, function, or domain.

Showing 179 of 179 genes
Gene Name Function Isoforms Arch Tier CPM Source Core Domains
LOC110371006 9 6 2 118.5 Mixed Defensin_2, EGF_Tenascin, Gamma-thionin, SLR1-BP, STOP, Toxin_2, Toxin_3, bacHORMA_2
LOC110384471 RpS19a Small ribosomal subunit protein eS19A 4 4 1 803.9 Mixed BNR, BNR_6, Ldl_recept_a, Ldl_recept_b, Pur_ac_phosph_N, Ribosomal_S19e, Sortilin-Vps10, Sortilin_C, fn3
LOC110376808 Larval cuticle protein A1A 5 4 1 5.2 Novel Chitin_bind_4, DUF963
LOC110373907 unc-22 Twitchin 3 3 1 175.2 Novel C1-set, C2-set_2, DUF5991, I-set, Ig_2, Ig_3, Izumo-Ig, PKD, V-set, ig
Doa Doa Serine/threonine-protein kinase Doa 5 3 1 134.0 Ref PK_Tyr_Ser-Thr, Pkinase
LOC110376880 rtn3-b Reticulon-3-B 7 3 1 721.4 Ref HisKA_3, Reticulon
LOC110374623 exd Homeobox protein extradenticle 3 3 1 61.8 Ref CENP-B_N, DUF4878, GAIN, HTH_3, Homeobox_KN, Homeodomain, IATP, Nucleoporin_FG2, PBC, UCH, YdaS_antitoxin
LOC110375562 znrf2 E3 ubiquitin-protein ligase znrf2 3 3 1 134.0 Novel HMBD, Prok-RING_1, RINGv, RNF220, zf-C3HC4, zf-C3HC4_2, zf-C3HC4_3, zf-C3HC4_4, zf-RING-like, zf-RING_11, zf-RING_16, zf-RING_2, zf-RING_5, zf-RING_UBOX, zf-rbx1
LOC110376811 Ccp84Ab Cuticle protein 4 3 1 1,071.8 Novel Chitin_bind_4, DUF963, Porin_2
LOC110375985 E(z) Histone-lysine N-methyltransferase E(z) 3 3 1 36.1 Mixed PRC2_HTH_1, SET, preSET_CXC
LOC110381191 Phldb2 Pleckstrin homology-like domain family B member 2 3 3 1 5.2 Mixed ACOX, HALZ, PH, PH_11
LOC110383815 bun Protein bunched, class 2/F/G isoform 4 3 1 10.3 Novel Ax_dynein_light, CCDC106, DUF1667, DUF6262, Fzo_mitofusin, GHL13, K-box, SNAPC5, TSC22, Wtap, YabA, ZapB, bZIP_1, bZIP_2
LOC110382235 MAP3K7 Mitogen-activated protein kinase kinase kinase 7 3 3 1 51.5 Novel FtsL_2
LOC110378904 TPD52L2 Tumor protein D54 3 3 1 82.4 Mixed CrtO, DUF2199, HIP1_clath_bdg, Jnk-SapK_ap_N, PvlArgDC, TPD52
LOC110370041 E75 Ecdysone-inducible protein E75 4 3 1 82.4 Mixed Hormone_recep, zf-C4
LOC110369673 Zinc carboxypeptidase (Fragment) 4 3 1 226.7 Novel DUF3970, Peptidase_M14, Propep_M14, tRNA_deacylase
LOC110383740 3 3 2 30.9 Novel Apolipoprotein, DUF1663, DUF6674, Perilipin
LOC110383068 3 3 2 36.1 Mixed MIF4G, PAM2
LOC110372065 3 3 2 1,448.0 Ref CaMBD, Citrate_synt, DUF4522, SNRNP27, Thymosin, WDCP, WH2
LOC110375042 cher Filamin-A 5 2 1 30.9 Ref DUF5060, DUF6801, Filamin, Y_Y_Y, YtkA
Fhos Fhod3 FH1/FH2 domain-containing protein 3 2 2 1 5.2 Ref ELMO_ARM, FH2, Formin_GBD_N
LOC110380713 Obsc Protein Obscurin 2 2 1 128.8 Novel C2-set_2, FlgH, I-set, Ig_2, Ig_3, Izumo-Ig, Kdo, PH_10, PKD_3, PK_Tyr_Ser-Thr, Pkinase, Receptor_2B4, RhoGEF, Ribosomal_L27, SH3_1, SH3_9, V-set, fn3, ig
LOC110378584 Bin1 Myc box-dependent-interacting protein 1 2 2 1 30.9 Ref ANIS5_cation-bd, BAR, DUF1664, GIT1_C, GPS2_interact, PIG-P, SH3_1, SH3_2, SH3_9, zf-RING_9
LOC110377474 Hrs Hepatocyte growth factor-regulated tyrosine kinase substrate 2 2 1 97.9 Novel CID, DZR, FYVE, FYVE_2, Hrs_helical, UIM, VHS
LOC110378527 Csrp1 Cysteine and glycine-rich protein 1 3 2 1 82.4 Novel LIM
LOC110383692 Hdac4 Histone deacetylase 4 2 2 1 15.5 Ref AAA_23, HDAC4_Gln, Hist_deacetyl, TFIIA
LOC110375725 Prm Paramyosin, long form 2 2 1 268.0 Ref Crescentin, DUF3557, ERM_helical, Filament, Myosin_tail_1, PARP, PhaP_Bmeg, T7SS_ESX_EspC
LOC110370712 Myophilin 2 2 1 298.9 Novel CAMSAP_CH, CDC24, CH, Calponin, DUF1967
LOC110372410 Limd2 LIM domain-containing protein 2 2 2 1 97.9 Novel KdpD, LIM
Spin spin Protein spinster 2 2 1 25.8 Ref MFS_1, OATP, Sugar_tr, TrbC
LOC110372278 HSPB1 Heat shock protein beta-1 2 2 1 448.3 Ref ArsA_HSP20, CTD4, HSP20
LOC110380880 Marchf2 E3 ubiquitin-protein ligase MARCHF2 2 2 1 5.2 Ref Hpre_diP_synt_I, RINGv, malic, zf-RING_2
LOC135117321 Nostrin Nostrin 2 2 1 5.2 Ref DUF5917, FCH, Mucin15, NABP, SH3_1, SH3_2, SH3_9, betaPIX_CC
Gish Csnk1g3 Casein kinase I isoform gamma-3 3 2 1 20.6 Novel CK1gamma_C, PK_Tyr_Ser-Thr, Pkinase, Pkinase_fungal, YrbL-PhoP_reg
LOC110377417 COTL1 Coactosin-like protein 2 2 1 118.5 Ref AIP3, BLOC1_2, CAGE1, CENP-F_leu_zip, Cep57_MT_bd, Cofilin_ADF, CpG_bind_C, DUF2205, DUF3450, DUF4164, DUF4795, DivIC, FapA, Fzo_mitofusin, GAS, HemX, NPV_P10, Nsp1_C, Nuf2_DHR10-like, Phage_GP20, Seryl_tRNA_N, TMPIT, VPS11_C, YabA
LOC110379742 Pls3 Plastin-3 2 2 1 41.2 Novel CAMSAP_CH, CH, CH_2, EF-hand_1, EF-hand_5, EF-hand_6, EF-hand_7, HTH_40, RsbRD_N
LOC126056620 marchf2 E3 ubiquitin-protein ligase MARCHF2 2 2 1 30.9 Ref MHC2-interact, RINGv, Transmemb_17, zf-C3HC4_3, zf-RING_16, zf-RING_2, zf-rbx1
LOC110376307 cactin Splicing factor Cactin 2 2 1 36.1 Ref CactinC_cactus, Cactin_mid, CoV_nucleocap, TFIIA
Wupa wupA Troponin I 4 2 1 443.1 Mixed Spc42p, Troponin
Mbl mbl Protein muscleblind 2 2 1 5.2 Novel MdcG, zf-CCCH, zf-CCCH_4, zf-TFIIB
LOC110384210 PDLIM3 PDZ and LIM domain protein 3 4 2 4 30.9 Novel DUF4749, PDZ, PDZ_2, PDZ_6
LOC110380390 Trmt13 tRNA:m(4)X modification enzyme TRM13 homolog 2 2 1 5.2 Novel Methyltransf_32, TRM13, zf-TRM13_CCCH, zf-U11-48K
LOC110372888 ARGK Arginine kinase 3 2 1 309.2 Mixed ATP-gua_Ptrans, ATP-gua_PtransN, Ac76
LOC110373102 SmydA-8 SET domain-containing protein SmydA-8, isoform A 2 2 1 15.5 Mixed SET, zf-HIT
LOC110376123 COMP Cartilage oligomeric matrix protein 2 2 1 108.2 Novel COMP, EGF_3, EGF_CA, SlyX, TSP_3, TSP_C, cEGF
LOC110375960 lola Longitudinals lacking protein, isoforms H/M/V 2 2 1 72.1 Ref BTB, CpXC, Trm112p, VIR_N, Zn_Tnp_IS1595, zf-AN1, zf-C2H2, zf-C2H2_2, zf-C2H2_4, zf-C2H2_7, zf-C6H2, zf-Di19, zf-H2C2_2, zf-H2C2_5, zf-Mss51, zf_C2H2_10, zf_C2H2_ZHX, zinc_ribbon_5
LOC110371881 chs-2 Chitin synthase chs-2 2 2 1 103.1 Ref Chitin_synth_2, Glyco_tranf_2_3, Glyco_trans_2_3, TMIE
LOC110375101 Gst1 Glutathione S-transferase 1 2 2 1 25.8 Novel Big_3, GST_C, GST_C_2, GST_C_3, GST_C_6, GST_N, GST_N_2, GST_N_3, Invas_SpaK, MetRS-N
LOC110383103 Vars1 Valine--tRNA ligase 2 2 1 25.8 Ref ABC_tran_CTD, Anticodon_1, DASH_Spc19, DUF1664, Val_tRNA-synt_C, tRNA-synt_1, tRNA-synt_1_2, tRNA-synt_1e, tRNA-synt_1g
LOC110376357 Allergen Tha p 1 2 2 1 25.8 Novel ApoO, CsoSCA, DUF1104, DUF1133, DUF2009, DUF3677, DUF4276, DUF5302, FAD_binding_7, GET4, HrpB2, OS-D, PFEMP, SRP1_TIP1, Seryl_tRNA_N, Strep_SA_rep, Transpos_assoc, Urb2, YbaB_DNA_bd
LOC110382272 CP66 Larval/pupal rigid cuticle protein 66 3 2 1 9,960.5 Novel Chitin_bind_4
LOC110370040 Tmbim6 Bax inhibitor 1 2 2 1 407.1 Novel 7TMR-DISM_7TM, ANIS5_cation-bd, Bax1-I, DHHC, DUF1140, DUF2231, DUF3381, DUF3764, DUF5366, Flavi_NS4A, FtsJ, Inhibitor_I53, Inhibitor_I69, PBP1_TM, RNA_pol_3_Rpc31, Spb1_C, Tom22
LOC110378703 AnxB11 Annexin B11 3 2 1 92.8 Ref Annexin, DUF1678, DUF2179, Myb_DNA-bind_7
LOC110380423 Lims2 LIM and senescent cell antigen-like-containing domain protein 2 2 2 1 56.7 Ref DZR_2, LIM, NinD, zf-C4pol, zinc-ribbons_6
LOC110371499 Cdr2 Cerebellar degeneration-related protein 2 2 2 1 20.6 Ref HAP1_N, KASH_CCD, Prefoldin, SlyX
LOC110372681 Cd63 CD63 antigen 2 2 1 175.2 Ref AC_N, DUF1600, DUF2892, DUF3185, DUF373, DUF6057, DUF6750, FtsX, PHO4, Tetraspanin
LOC110371057 Arglu1 Arginine and glutamate-rich protein 1 2 2 1 36.1 Novel ARGLU, SR-25
Stac stac Protein unc-13 homolog 4B 2 2 1 10.3 Novel C2, MUN
LOC110371237 Tssk4 Testis-specific serine/threonine-protein kinase 4 2 2 1 15.5 Ref ABC1, Aida_N, Kdo, Kinase-like, PK_Tyr_Ser-Thr, Pkinase, QPE
LOC110372928 Rab6 Ras-related protein Rab6 2 2 1 56.7 Ref Arf, DUF6581, FeoB_N, GTP_EFTU, Gtr1_RagA, MMR_HSR1, Ras, Roc, RsgA_GTPase, SRPRB, TetR_C_16
LOC110380216 BJSP-2 Basic juvenile hormone-suppressible protein 2 10 2 1 3,333.9 Novel Hemocyanin_C
Pabp PABPC1 Polyadenylate-binding protein 1 2 2 1 695.6 Novel Lysine_decarbox, MARF1_RRM1, Nup35_RRM_2, OB_RNB, PABP, RRM_1, RRM_3, RRM_5, RRM_7, RRM_occluded, SET_assoc
LOC110380874 GILT1 GILT-like protein 1 2 2 1 5.2 Novel GILT, Phage_tail_U, Thioredoxin_4
LOC110380469 14-3-3zeta 14-3-3 protein zeta 5 2 1 499.8 Mixed 14-3-3, DUF4518, DUF4710, NPFF
Sarm Sarm NAD(+) hydrolase sarm1 4 2 1 36.1 Novel Arm, SAM_1, SAM_2, SAM_3, TIR_2
LOC110371268 Ctdp1 RNA polymerase II subunit A C-terminal domain phosphatase 2 2 1 20.6 Novel BRCT, BRCT_2, Biotin_lipoyl, Biotin_lipoyl_2, CDC45, FCP1_C, HAD, HlyD_3, LIG3_BRCT, NIF, PTCB-BRCT
LOC110382063 bsdc1 BSD domain-containing protein 1 2 2 1 10.3 Novel BSD, DUF6449
LOC110374150 brat Protein brain tumor 3 2 1 20.6 Ref CHU_C, DUF5128, NHL, SGL, STAT_alpha, zf-B_box, zf-C3HC4, zf-C3HC4_2, zf-C3HC4_3, zf-C3HC4_4, zf-RING_2, zf-RING_5, zf-RING_UBOX
LOC110380215 BJSP-2 Basic juvenile hormone-suppressible protein 2 5 2 1 510.1 Novel Hemocyanin_C
LOC110378939 CYP4C1 Cytochrome P450 4C1 2 2 1 36.1 Novel FAD_binding_1, PalH, RhoGEF, SKN1_KRE6_Sbg1, p450
LOC110383758 ken Transcription factor Ken 2 2 1 5.2 Ref BTB, DUF6431, FYVE_2, Zn-ribbon_8, Zn_ribbon_SprT, zf-C2H2, zf-C2H2_2, zf-C2H2_3rep, zf-C2H2_4, zf-C2H2_6, zf-C2H2_jaz, zf-Di19, zf-H2C2_2
LOC110369696 tio Protein tiptop 2 2 1 15.5 Ref Actin_micro, DUF4187, FYVE, PSI_integrin, Sgf11, Tmemb_55A, zf-C2H2, zf-C2H2_2, zf-C2H2_4, zf-C2H2_6, zf-C2H2_9, zf-C2H2_jaz, zf-C2HE, zf-met, zf_ZIC
LOC110380831 NAGLU Alpha-N-acetylglucosaminidase 2 2 1 87.6 Ref NAGLU, NAGLU_C, NAGLU_N, Proteasome, Proteasome_A_N
LOC110375153 eEF1delta Probable elongation factor 1-delta 3 2 1 144.3 Mixed BLOC1_2, CCD48, Cwf_Cwc_15, DUF1664, DUF4407, DivIC, EF-1_beta_acid, EF1_GNE, FlaC_arch, Ribosomal_60s, Shugoshin_N, Spc24, Syntaxin-6_N, TMF_DNA_bd, TSC22, Wtap, bZIP_1
LOC110371224 CERT1 Ceramide transfer protein 2 2 1 41.2 Novel CCDC74_C, Hydin_ADK, PH, PH_11, PH_8, START
LOC135118096 Serine protease inhibitor dipetalogastin (Fragment) 2 2 1 262.8 Novel Kazal_1, Kazal_2, PET
LOC110375237 Cuticle protein 8 2 2 1 82.4 Novel Chitin_bind_4, Glyoxalase_8, PAZ_3, SpaA_2, T2SS-T3SS_pil_N
LOC110372369 Haspin Serine/threonine-protein kinase haspin homolog 2 2 1 170.0 Novel APH, DUF3856, Haspin_kinase, PK_Tyr_Ser-Thr, Pkinase
Prp19 PRPF19 Pre-mRNA-processing factor 19 2 2 1 10.3 Novel ANAPC4_WD40, Coatomer_WDAD, Cytochrom_D1, Ge1_WD40, Glyphos_transf, HPS3_N, NBCH_WD40, Nup160, PAS_11, Prp19, U-box, WD40, WD40_like, eIF2A
LOC110369917 lfe-2 Inositol-trisphosphate 3-kinase homolog 3 2 1 51.5 Ref IPK
LOC110374093 fundc1 FUN14 domain-containing protein 1 2 2 1 97.9 Ref Birna_RdRp_C, DUF1798, FUN14, Halogen_Hydrol, ISG65-75, Osmo_CC, Prefoldin, SCAB_CC, TipAS
LOC110379433 TMEM165 Putative divalent cation/proton antiporter TMEM165 2 2 1 5.2 Novel CobD_Cbib, DUF6584, Mntp, OFeT_1, Pet100, Strabismus, UPF0016
LOC110369956 MLXIP MLX-interacting protein 2 2 1 10.3 Ref DivIC, HLH, MAP65_ASE1, Macoilin, NPV_P10, bZIP_1
Tn nhl-1 RING finger protein nhl-1 2 2 1 87.6 Novel Bacillus_HBL, Baculo_PEP_C, DUF5128, DUF5711, DUF5754, DUF6148, DUF641, NHL, Phytase-like, SBBP, SGL, TolB_like, zf-B_box, zf-C3HC4, zf-C3HC4_2, zf-C3HC4_3, zf-RING_2, zf-RING_5, zf-RING_UBOX
Serca SERCA Calcium-transporting ATPase sarcoplasmic/endoplasmic reticulum type 6 2 1 582.3 Mixed Cation_ATPase, Cation_ATPase_C, Cation_ATPase_N, E1-E2_ATPase, HAD, Hydrolase, Hydrolase_3
LOC110370503 mknk2 MAP kinase-interacting serine/threonine-protein kinase 2 3 2 1 113.4 Novel APH, Kdo, PK_Tyr_Ser-Thr, Pkinase
LOC110377730 wat Fatty acyl-CoA reductase wat 4 2 1 77.3 Novel 3Beta_HSD, Epimerase, GDP_Man_Dehyd, KR, NAD_binding_4, Nup54, Polysacc_synt_2, Sterile
LOC110372844 HMG20A High mobility group protein 20A 2 2 1 20.6 Ref Exonuc_VII_L, HMG_box, HMG_box_2
LOC110376117 GSPT1 Eukaryotic peptide chain release factor GTP-binding subunit ERF3A 2 2 1 61.8 Ref G-alpha, GTP_EFTU, GTP_EFTU_D2, GTP_EFTU_D3, MMR_HSR1, PAM2
LOC110377432 VCATH Viral cathepsin 2 2 1 144.3 Novel DIM, Globin, Glyco_trans_A_1, Inhibitor_I29
LOC110377255 Jupiter Microtubule-associated protein Jupiter 3 2 1 67.0 Ref JUPITER
LOC110373713 Gaa Lysosomal alpha-glucosidase 2 2 1 25.8 Novel DUF5110, Gal_mutarotas_2, Glyco_hydro_31, NtCtMGAM_N, PX, PXA, RGS, Trefoil
LOC110370365 FKBP46 46 kDa FK506-binding nuclear protein 2 2 1 30.9 Novel CCD97-like_C, DTHCT, FKBP_C, NPL, RNA_polI_A34, TFIIF_alpha, Vfa1
LOC110379722 TMEM214 Transmembrane protein 214 2 2 1 41.2 Novel PcfK, Plk4_PB1, TMEM214
LOC110383466 GF21161 Ubiquitin-conjugating enzyme E2 S 2 2 1 5.2 Novel MIP, UQ_con
LOC110375177 nmd3 60S ribosomal export protein NMD3 2 2 1 15.5 Novel AAA, AAA_16, AAA_19, AAA_30, ABC_tran, ATP-synt_ab, ATP-synt_ab_N, ATPase, ATPase_2, CttA_N, DUF2075, FUSC-like, NACHT, NB-ARC, NMD3, Nif11, RNA_helicase, RsgA_GTPase
LOC110369777 SRRM2 Serine/arginine repetitive matrix protein 2 3 2 1 15.5 Ref DUF6074, SieB, cwf21
LOC110382602 Spn27A Serine protease inhibitor 27A 2 2 1 30.9 Novel Diphtheria_T, PPL4, Serpin
LOC110373174 SCP2 Sterol carrier protein 2 2 2 1 417.4 Novel ACP_syn_III, Alkyl_sulf_C, Ketoacyl-synt_C, SCP2, SCP2_2, SpoVAD, Thiolase_C, Thiolase_N, ketoacyl-synt
Su(tpl) Ell RNA polymerase II elongation factor Ell 2 2 1 10.3 Ref BRF1, ELL, Occludin_ELL, RAP1
LOC110382429 TRIP11 Thyroid receptor-interacting protein 11 2 2 1 10.3 Ref CC149, CENP-F_leu_zip, Crescentin, Csm1_N, DUF3138, Docking, GRAB, GRIP, KASH_CCD, SHE3, TSC22, TolA_bind_tri
LOC126053519 Ddx17 Probable ATP-dependent RNA helicase DDX17 2 2 1 56.7 Novel AAA_19, Apt1, DEAD, DUF4050, Helicase_C, NPR3, ResIII
LOC110373924 YIPF1 Protein YIPF1 2 2 1 5.2 Novel DUF2070, LisH_2, Yip1
LOC110370967 rudhira Breast carcinoma-amplified sequence 3 homolog 2 2 1 87.6 Novel BCAS3, DUF326, HC2
Smash CG43427 Uncharacterized protein CG43427 2 2 1 67.0 Novel ATP-synt_E_2, DUF4757, LIM
LOC110379393 Vapa Vesicle-associated membrane protein-associated protein A 2 2 1 30.9 Ref ASH, Fez1, Motile_Sperm
LOC110379889 zdhhc2 Palmitoyltransferase ZDHHC2 2 2 1 25.8 Ref DHHC, SecY
LOC126055824 Fur1 Furin-like protease 1, isoforms 1/1-X/2 3 2 1 41.2 Ref Furin-like_2, GF_recep_IV, P_proprotein, Peptidase_S8, S8_pro-domain
LOC110383951 METAP1 Methionine aminopeptidase 1 3 2 1 30.9 Mixed Peptidase_M24
Pix pix Protein Pixie 2 2 1 329.8 Novel AAA, AAA_14, AAA_15, AAA_16, AAA_21, AAA_22, AAA_23, AAA_24, AAA_28, AAA_29, AAA_30, AAA_33, AAA_5, AAA_7, ABC_tran, DLIC, DUF5906, Fer4, Fer4_10, Fer4_16, Fer4_2, Fer4_21, Fer4_4, Fer4_6, Fer4_7, Fer4_8, Fer4_9, Gemini_AC4_5, MMR_HSR1, NACHT, NB-ARC, RLI, RNA_helicase, Rad17, Roc, RsgA_GTPase, SMC_N, SRP54, Septin, TsaE, VirE
LOC110374119 Tret1 Facilitated trehalose transporter Tret1 2 2 1 77.3 Novel FAM210A-B_dom, KxYKxGKxW_sig, MFS_1, Mntp, SelK_SelG, Sugar_tr
LOC110372477 abhd11 sn-1-specific diacylglycerol lipase ABHD11 2 2 1 10.3 Novel Abhydrolase_1, Abhydrolase_11, Abhydrolase_3, Abhydrolase_5, Abhydrolase_6, Chlorophyllase, Chlorophyllase2, DLH, DUF1057, DUF676, DUF915, Esterase, Hydrolase_4, Lipase_3, Ndr, PAF-AH_p_II, PGAP1, Thioesterase
LOC110372925 PI31 Proteasome inhibitor PI31 subunit 2 2 1 82.4 Novel PI31_Prot_C, PI31_Prot_N
LOC110376053 Odad1 Outer dynein arm-docking complex subunit 1 2 2 1 0.0 Novel BLOC1S3, Caudo_TAP, DUF3376, DUF848, Exonuc_VII_L, FlaC_arch, Med9, Mod_r, NYD-SP28_assoc, Nup88, Vert_HS_TF, Vip3A_N
LOC110383102 snrnp35 U11/U12 small nuclear ribonucleoprotein 35 kDa protein 2 2 1 5.2 Novel ANP, DUF389, MINDY-3_4_CD, Nup35_RRM_2, RRM_1, RRM_7, Trypsin
Psn Psn Presenilin homolog 2 2 1 15.5 Ref ABC2_membrane_2, DUF2109, Pox_A14, Presenilin
LOC135118639 ATPsyngamma ATP synthase subunit gamma, mitochondrial 2 2 1 154.6 Novel ATP-synt, WASH_WAHD
LOC110377970 lsm14a Protein LSM14 homolog A 2 2 1 30.9 Ref DUF4551, FDF, G_path_suppress, LSM14, SM-ATX, TFIIA
LOC126056015 Cuticle protein 7 5 2 1 608.0 Novel Chitin_bind_4
LOC110379761 ARHGEF1 Rho guanine nucleotide exchange factor 1 2 2 1 51.5 Novel C1_1, C1_2, Hemerythrin, PDZ, PDZ_2, PDZ_6, PH_16, Peptidase_M50, RGS-like, RhoGEF
LOC110381267 Tctp Translationally-controlled tumor protein homolog 2 2 1 989.4 Novel DUF4286, TCTP
LOC110381278 NCOA7 Nuclear receptor coactivator 7 2 2 1 56.7 Ref LysM, TLD
LOC110380778 Nlp Nucleoplasmin-like protein 2 2 1 175.2 Ref DNA_pol_phi, GCIP, NPL, Nucleoplasmin, RRN3
LOC110371859 Dsp1 High mobility group protein DSP1 2 2 1 10.3 Novel DUF4175, HMG_box, HMG_box_2, HMG_box_5, NAT_N, Protamine_like
LOC110372106 Gramd1b Protein Aster-B 2 2 1 15.5 Ref GRAM, RskA, UPF0242, VASt
LOC110381581 Ubxn4 UBX domain-containing protein 4 2 2 1 0.0 Novel DUF3526, ORC3_N, UBX
LOC110381057 CG18335 CIMIP2 protein CG18335 2 2 1 25.8 Novel DUF2475, DUF5565
Vari PALS2 Protein PALS2 2 2 1 15.5 Ref Colicin_E5, Exo_endo_phos_2, Guanylate_kin, IL1_propep, PDZ, PDZ_2, PDZ_6, Peptidase_M50, SH3_1, SH3_2, SH3_9, Tricorn_PDZ
LOC110375794 porin Voltage-dependent anion-selective channel 2 2 1 216.4 Novel DUF6733, EKAL, Porin_3, Tcp10_C
LOC110376864 Mlc-c Myosin-2 essential light chain 2 2 1 515.3 Ref Caleosin, DUF3349, EF-hand_1, EF-hand_5, EF-hand_6, EF-hand_7, EF-hand_8, EF-hand_9, UPF0154
LOC110373235 Clic Chloride intracellular channel Clic 2 2 1 41.2 Ref GST_C_2, GST_N, GST_N_3, Sec23_helical
LOC110375379 spen Protein split ends 2 2 1 113.4 Novel HTH_47, RRM_1, RRM_7, RRM_occluded, SPOC
LOC110383871 LDLR Low-density lipoprotein receptor (Fragment) 3 2 1 20.6 Mixed DUF5050, EGF_CA, FXa_inhibition, Ldl_recept_a, Ldl_recept_b, SGL, cEGF
LOC110374024 dod Putative peptidyl-prolyl cis-trans isomerase dodo 2 2 1 15.5 Ref DUF5671, Phage_TAC_6, RBD-FIP, Rotamase, Rotamase_2, Rotamase_3, TilS, WW, zf_CopZ
LOC110383845 Mcf2l Guanine nucleotide exchange factor DBS 3 2 1 10.3 Novel CRAL_TRIO, CRAL_TRIO_2, DUF4201, PH, PH_10, RhoGEF, SH3_1, SH3_9, Spectrin
LOC110383792 2 2 2 860.5 Novel CDC45, CobT, DNA_pol_phi, LRR_1, LRR_3, LRR_4, LRR_5, LRR_6, LRR_8, LRR_9, Nop14, Sigma70_ner
LOC110381137 2 2 2 36.1 Ref AmyA-gluTrfs_C, DUF3520, DUF6201
LOC110375908 3 2 2 113.4 Ref Comm, DUF6114, DUF6724, TMEM52, WBP-1
LOC135118176 2 2 2 25.8 Ref 7tm_7, Claudin_2, DUF6232, DUF6498, DUF6541, PMP22_Claudin, Peptidase_U4, SUR7, Tetraspanin
LOC110373581 2 2 2 25.8 Ref ADIP, APG6_N, Crescentin, DUF4200, DUF4349, DUF724, DivIC, Exo84_C, EzrA, F-box-like_2, Fib_alpha, HAUS6_N, Nuf2_DHR10-like, Prefoldin_2, Prominin, SKA2, SlyX, TMF_DNA_bd, TMF_TATA_bd, UPF0242, Uds1
LOC110379263 2 2 2 20.6 Ref COX_ARM, HIND, YjbR, YqzH
LOC110377265 2 2 2 67.0 Novel CiPC, Hormone_3
LOC110380173 2 2 2 20.6 Novel ADIP, CCDC92, CENP-H, Cnn_1N, DUF3807, DUF4407, End3, Filament, Mto2_bdg, UPF0242
LOC110371885 Jph3 Junctophilin-3 2 2 2 30.9 Ref Alanine_zipper, DUF4398, MORN, hNIFK_binding
LOC110372639 2 2 2 25.8 Novel K1377, Kazal_1, Kazal_2
LOC110378652 3 2 2 113.4 Mixed FAP, JUPITER, Mucin
LOC135118625 2 2 2 25.8 Ref DUF4834, PROL5-SMR, SARAF, TMEM52
LOC110370179 3 2 2 443.1 Novel Adeno_shaft
LOC110376742 2 2 2 41.2 Novel EVI2A, Fez1, PACT_coil_coil, Phage_GP20, TPR_MLP1_2
LOC110377332 3 2 2 113.4 Novel PSP94, SHIPPO-rpt
LOC110380491 2 2 2 0.0 Novel DZR, FAM194
LOC110379210 2 2 2 5.2 Novel DUF2576, DUF5082, RRF, Tropomyosin_1
LOC110374641 3 2 2 46.4 Ref CCDC53, DUF1330, DUF4860, HisK_sensor, Nup35_RRM, RL, RRM_1, RRM_3
LOC110376464 2 2 2 25.8 Ref CDC45, CENP-B_dimeris, CobT, Conotoxin, DUF4746, FAM176, Nop14, PBP1_TM, QVR, S-antigen, Sporozoite_P67, VID27_N
LOC110375613 2 2 2 15.5 Ref Acyltransf_C, C1_1, DUF5810, DZR_2, HTH_18, PyrI_C, zf-C2H2, zf-C2H2_2, zf-C2H2_4, zf-C2H2_6, zf-C2H2_jaz, zf-Di19, zf-FCS, zf-H2C2_2, zf-TRAF, zf-met, zinc_ribbon_15
LOC110370740 2 2 2 675.0 Novel Chorion_2, DsbC, T4BSS_DotI_IcmL
LOC110377174 2 2 2 154.6 Novel MPS2, PRCC, Phage_sheath_1C, bZIP_1, bZIP_2
LOC110378481 2 2 2 20.6 Novel Cytochrom_C, DUF3670, DUF4407, HTH_IclR, MarR_2, PUL, SOTI, TPR_MLP1_2
LOC110383835 2 2 2 211.3 Novel BamHI, DUF3421, DUF5010_C, Methyltransf_FA
LOC110372666 2 2 2 242.2 Novel DUF4758, EGF, EGF_3, EGF_CA, EGF_MSP1_1, Plasmod_Pvs28, cEGF, hEGF
LOC110376454 2 2 2 20.6 Ref DUF4497, DUF4776
LOC110382815 2 2 2 10.3 Ref Cwf_Cwc_15, DUF3083, DUF5383
LOC110378661 3 2 2 479.2 Ref DEC-1_N, DUF4611, OAD_gamma, PBP1_TM
LOC110378473 2 2 2 72.1 Novel ADIP, Apolipoprotein, Baculo_PEP_C, Claudin_2, DUF2975, DUF4131, DUF898, Prominin, RmuC, TPR_MLP1_2, Tetraspanin
LOC110382745 3 2 2 103.1 Novel Collagen
LOC110382369 2 2 2 123.7 Novel SVWC, THH1_TOM1-3_dom
LOC110377188 2 2 2 25.8 Novel Arc_MA, SpecificRecomb
LOC110372667 2 2 2 252.5 Novel Adenylsucc_synt, DNA_ligase_C, GramPos_pilinBB, Hexapep, Hexapep_2, S1-like
LOC110383215 2 2 2 15.5 Ref ApoO, DUF3138, GP41, HEF_HK, UPF0231
LOC110371384 2 2 2 36.1 Ref Actin_micro, zf-BED
LOC110370009 2 2 2 108.2 Ref DIM, Dickkopf_N, EB, FOG_N, PCSK9_C1, Secapin, zf_CCCH_4
novel_gene_NC_087130.1_1283 2 2 3 0.0 Novel DUF22, DUF3377, DUF3432
LOC110373584 2 2 4 15.5 Ref DUF1676, Pacs-1, Rota_NSP4
LOC110381131 3 2 4 427.7 Novel DUF3611, TMEM82, TgpA_N
LOC110379502 2 2 4 288.6 Novel DUF6491, Nuc_H_symport
LOC110383216 2 2 4 77.3 Ref CCDC22, DUF4525
LOC110380900 APY Apyrase 3 2 4 61.8 Novel 5_nucleotid_C, Metallophos, PGA_cap
LOC110374487 FPR2 FK506-binding protein 2 2 2 4 195.8 Ref EF-hand_1, EF-hand_10, EF-hand_5, EF-hand_6, EF-hand_7, EF-hand_8, FKBP_C, M20_dimer, RelB_N, SPARC_Ca_bdg
LOC110378016 2 2 4 5.2 Novel DCC1-like, DUF3798, DUF5332, DUF5693, DeoC, DraK_HK_N, Fin, GAD, Glrx-like, Glutaredoxin, HyaE, Ins134_P3_kin_N, Redoxin, TMP-TENI, Thioredoxin, Thioredoxin_2, Thioredoxin_3, Thioredoxin_5, Thioredoxin_6, Thioredoxin_8, Toxin-deaminase, TraF, UPF0180, W2, zf-HC3

GO Term Enrichment (QC-filtered domain variant genes, FDR < 0.05)

Overrepresented GO terms in genes with genuine domain architecture variants (after artifact removal). These terms indicate which biological processes, molecular functions, and cellular compartments are enriched for alternative splicing that alters protein domain composition.

All Significant GO Terms
Namespace GO ID Term DV Genes Background FDR Genes
BP GO:0045214 sarcomere organization 6/133 22/4328 0.006884 Csrp1, Fhod3, Obsc, cher, unc-22, wupA
BP GO:0045752 positive regulation of Toll signaling pathway 3/133 6/4328 0.044083 Doa, Hrs, cactin
BP GO:0006897 endocytosis 6/133 40/4328 0.044083 Csnk1g3, Hrs, Marchf2, Nostrin, marchf2, spin
MF GO:0051015 actin filament binding 7/133 41/4328 0.015812 Bin1, COTL1, Fhod3, LOC110370712, Limd2, Pls3, cher
CC GO:0030018 Z disc 8/133 29/4328 0.000942 Bin1, Csrp1, Fhod3, HSPB1, Hdac4, PDLIM3, cher, mbl
CC GO:0031430 M band 3/133 7/4328 0.044439 Obsc, Prm, unc-22

DV Enrichment by Expression Level (CPM from upstream transcriptomics)

Baseline DV Rate
3.0%
179 / 5,997 genes
Peak DV Rate
7.5%
Very high (>=200) bin
Peak Enrichment
2.5×
vs baseline
Chi-square trend
p < 0.001
Expression Bin Total Genes DV Genes DV % Fold vs Baseline
Silent (<1) CPM 396 4 1.0% 0.3×
Low (1-10) CPM 1,086 15 1.4% 0.5×
Moderate (10-50) CPM 3,078 73 2.4% 0.8×
High (50-200) CPM 998 54 5.4% 1.8×
Very high (>=200) CPM 439 33 7.5% 2.5×

Bar height shows the percentage of genes that are domain-variant within each expression bin. Dashed line = overall DV rate (3.0%). If DV enrichment increases monotonically with expression, ascertainment bias (more reads = more isoform discovery) is the dominant driver. Enrichment above baseline at specific expression tiers may indicate biological enrichment beyond the detection effect. CPM from 194,066 mRNA reads (92.2% rRNA excluded).

ORF Type Distribution

NMD Prediction by ORF Type

NMD Candidates by Evidence Tier

NMD Expression Validation (CPM from upstream transcriptomics)

NMD Expression Rate
97.5%
278 / 285
Non-NMD Expression Rate
96.7%
6,448 / 6,671
Fold Difference
1.0×
non-NMD / NMD
Tier 1 NMD Expression
98.9%
175 / 177
NMD Candidates (n=285)
Non-NMD (n=6,671)

Box plots show median (line), IQR (box), and 1.5×IQR whiskers. Individual transcript CPM values are overlaid as jittered points. NMD candidates are expressed at 97.5% (median 30.9 CPM) vs 96.7% (median 20.6 CPM) for non-NMD — no evidence of NMD-mediated degradation.

Output Files

blastp.with_title.tsv HPC 836.2 KB gene_functional_summary.tsv HPC 206 KB isoform_annotations.tsv HPC 1.3 MB job.yml HPC 608 B pfam.domtblout HPC 14.9 MB results_summary.json HPC 613.6 KB

Provenance

Execution Expression quantification summary
Completed 2026-02-28T22:04:20+00:00
RO-Crate 1.1 Workflow RO-Crate 1.0 FAIR
This analysis is packaged as a Research Object Crate with machine-readable provenance and FAIR metadata.

RO-Crate Metadata (JSON-LD)

Show/hide raw JSON-LD 
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                },
                {
                    "@id": "pfam.domtblout"
                }
            ]
        },
        {
            "@id": "results_summary.json",
            "@type": "File",
            "name": "results_summary.json",
            "description": "Derived summary statistics from pipeline outputs (CPM >= 1, uniquely mapped reads)",
            "encodingFormat": "application/json",
            "contentSize": "613.6 KB",
            "sha256": "07bff9aebb0744bac6de796650df49a4c0cfa9c5cc0e3259dd876a0845720d0e"
        },
        {
            "@id": "summary_extractor.py",
            "@type": [
                "File",
                "SoftwareSourceCode"
            ],
            "name": "Summary extraction script",
            "description": "Python script that computed results_summary.json from pipeline outputs",
            "programmingLanguage": {
                "@id": "#python3"
            }
        },
        {
            "@id": "#python3",
            "@type": "ComputerLanguage",
            "name": "Python",
            "url": {
                "@id": "https://www.python.org/"
            },
            "version": "3"
        },
        {
            "@id": "#summary-extraction",
            "@type": "CreateAction",
            "name": "Expression quantification summary",
            "instrument": {
                "@id": "summary_extractor.py"
            },
            "endTime": "2026-02-28T22:04:20+00:00",
            "object": [
                {
                    "@id": "OUT.read_assignments.tsv.gz"
                },
                {
                    "@id": "OUT.gene_counts.tsv"
                },
                {
                    "@id": "OUT.transcript_counts.tsv"
                },
                {
                    "@id": "OUT.extended_annotation.gtf"
                },
                {
                    "@id": "OUT.transcript_models.gtf"
                }
            ],
            "result": [
                {
                    "@id": "results_summary.json"
                }
            ]
        },
        {
            "@id": "#protocol-19",
            "@type": "LabProtocol",
            "name": "Direct cDNA sequencing V14 with SQK-LSK114",
            "description": "This protocol describes how to carry out sequencing of cDNA using a reverse transcription and strand-switching method and the Ligation Sequencing Kit V14 (SQK-LSK114) This protocol is recommended for users who:\r\n\r\n- Are interested in exploring novel RNA biology.\r\n- Are looking for splice variant and fusion transcript analysis.\r\n- Do not wish to use PCR.\r\n- Wish to preserve quantitative information in samples likely to be impacted by PCR bias.\r\n- Would like full-length cDNA strands.\r\n- Want to achieve median raw read accuracy of Q20+ (99%) and above.\r\n- Want to optimise their sequencing experiment for output.\r\n",
            "version": "1",
            "category": "sample_prep",
            "step": [
                {
                    "@type": "HowToStep",
                    "position": 1,
                    "text": "Thaw the following reagents and spin down briefly using a microfuge, before mixing as indicated in the table below, and place on ice.\r\n\r\nReagent \t                                            1. Thaw at room temperature \t2. Briefly spin down \t3. Mix well by pipetting\r\nUser-supplied VN Primer diluted to 2 \u00b5M \t                          \u2713 \t                           \u2713 \t                     \u2713\r\nUser-supplied Strand-Switching Primer diluted to 10 \u00b5M \t                  \u2713 \t                           \u2713 \t                     \u2713\r\n10 mM dNTP solution \t                                                  \u2713 \t                           \u2713 \t                     \u2713\r\nRNaseOUT \t                                                      Not frozen \t                   \u2713 \t                     \u2713\r\nMaxima H Minus Reverse Transcriptase \t                              Not frozen \t                   \u2713 \t                     \u2713\r\nMaxima H Minus 5x RT Buffer \t                                          \u2713 \t                           \u2713 \t              Mix by vortexing"
                },
                {
                    "@type": "HowToStep",
                    "position": 2,
                    "text": "Prepare the RNA in nuclease-free water\r\n\r\n- Transfer 100 ng Poly(A)+ RNA or 1 \u03bcg of total RNA into a 0.2 ml PCR tube\r\n- Adjust the volume to up to 7.5 \u03bcl with nuclease-free water\r\n- Mix by flicking the tube to avoid unwanted shearing\r\n- Spin down briefly in a microfuge"
                },
                {
                    "@type": "HowToStep",
                    "position": 3,
                    "text": "Prepare the following reaction in the 0.2 ml PCR tube containing the prepared RNA input:\r\n\r\nReagent \t                                                            Volume\r\nRNA input (100 ng Poly(A)+ RNA or 1 \u03bcg of total RNA) from step above \t    7.5 \u03bcl\r\nVN Primer diluted to 2 \u03bcM \t                                            2.5 \u03bcl\r\n10 mM dNTPs \t                                                            1 \u03bcl\r\nTotal volume \t                                                            11 \u03bcl         "
                },
                {
                    "@type": "HowToStep",
                    "position": 4,
                    "text": "Mix gently by flicking the tube, and spin down."
                },
                {
                    "@type": "HowToStep",
                    "position": 5,
                    "text": "Incubate at 65\u00b0C for 5 minutes and then snap cool on a pre-chilled freezer block for 1 minute."
                },
                {
                    "@type": "HowToStep",
                    "position": 6,
                    "text": "In a separate tube, mix together the following:\r\n\r\nReagent \t                               Volume\r\n5x RT Buffer \t                                4 \u03bcl\r\nRNaseOUT \t                                1 \u03bcl\r\nNuclease-free water \t                        1 \u03bcl\r\nStrand-Switching Primer diluted to 10 \u00b5M \t2 \u03bcl\r\nTotal \t                                        8 \u03bcl     "
                },
                {
                    "@type": "HowToStep",
                    "position": 7,
                    "text": "Mix gently by flicking the tube, and spin down."
                },
                {
                    "@type": "HowToStep",
                    "position": 8,
                    "text": "Add the 8 \u03bcl of strand-switching reagents (prepared in steps 6-7) to the 11 \u03bcl of snap-cooled mRNA (from steps 2-5). Mix by flicking the tube and spin down."
                },
                {
                    "@type": "HowToStep",
                    "position": 9,
                    "text": "Incubate at 42\u00b0C for 2 minutes in the thermal cycler."
                },
                {
                    "@type": "HowToStep",
                    "position": 10,
                    "text": "Add 1 \u00b5l of Maxima H Minus Reverse Transcriptase. The total volume is now 20 \u00b5l."
                },
                {
                    "@type": "HowToStep",
                    "position": 11,
                    "text": "Mix gently by flicking the tube, and spin down."
                },
                {
                    "@type": "HowToStep",
                    "position": 12,
                    "text": "Incubate using the following protocol using a thermal cycler:\r\n\r\nCycle step \t                              Temperature \tTime \t    No. of cycles\r\nReverse transcription and strand-switching    42\u00b0C \t        90 mins \t  1\r\nHeat inactivation \t                      85\u00b0C \t        5 mins \t          1\r\nHold \t                                      4\u00b0C \t        \u221e \t                    "
                },
                {
                    "@type": "HowToStep",
                    "position": 13,
                    "text": "Thaw the following reagents and spin down briefly using a microfuge, before mixing as indicated in the table below, and place on ice.\r\n\r\nReagent \t                             1. Thaw at room temperature \t2. Briefly spin down \t3. Mix well by pipetting\r\nUser-supplied PR2 Primer diluted to 10 \u00b5M \t           \u2713 \t                           \u2713 \t                    \u2713\r\nRNase Cocktail Enzyme Mix \t                       Not frozen \t                   \u2713 \t                    \u2713\r\nLongAmp Taq 2X Master Mix \t                           \u2713 \t                           \u2713 \t                    \u2713   "
                },
                {
                    "@type": "HowToStep",
                    "position": 14,
                    "text": "Thaw the AMPure XP Beads (AXP) at room temperature and mix by vortexing. Keep the beads at room temperature."
                },
                {
                    "@type": "HowToStep",
                    "position": 15,
                    "text": "Add 1 \u00b5l RNase Cocktail Enzyme Mix (ThermoFisher, cat # AM2286) to the reverse transcription reaction. "
                },
                {
                    "@type": "HowToStep",
                    "position": 16,
                    "text": "Incubate the reaction for 10 minutes at 37\u00b0 C in a thermal cycler."
                },
                {
                    "@type": "HowToStep",
                    "position": 17,
                    "text": "Resuspend the AMPure XP beads (AXP) by vortexing."
                },
                {
                    "@type": "HowToStep",
                    "position": 18,
                    "text": "Transfer the sample to a clean 1.5 ml Eppendorf DNA LoBind tube."
                },
                {
                    "@type": "HowToStep",
                    "position": 19,
                    "text": "Add 17 \u00b5l of resuspended AMPure XP beads (AXP) to the reaction and mix by flicking the tube."
                },
                {
                    "@type": "HowToStep",
                    "position": 20,
                    "text": "Incubate on a Hula mixer (rotator mixer) for 5 minutes at room temperature."
                },
                {
                    "@type": "HowToStep",
                    "position": 21,
                    "text": "Prepare 500 \u03bcl of fresh 80% ethanol in nuclease-free water."
                },
                {
                    "@type": "HowToStep",
                    "position": 22,
                    "text": "Spin down the sample and pellet on a magnet. Keep the tube on the magnet, and pipette off the supernatant."
                },
                {
                    "@type": "HowToStep",
                    "position": 23,
                    "text": "Keep the tubes on the magnet and wash the beads with 200 \u00b5l of freshly prepared 80% ethanol without disturbing the pellet. Remove the ethanol using a pipette and discard. If the pellet was disturbed, wait for beads to pellet again before removing the ethanol."
                },
                {
                    "@type": "HowToStep",
                    "position": 24,
                    "text": "Repeat the previous step."
                },
                {
                    "@type": "HowToStep",
                    "position": 25,
                    "text": "Spin down and place the tube back on the magnet. Pipette off any residual ethanol. Allow to dry for ~30 seconds, but do not dry the pellet to the point of cracking."
                },
                {
                    "@type": "HowToStep",
                    "position": 26,
                    "text": "Remove the tube from the magnetic rack and resuspend pellet in 20 \u00b5l nuclease-free water."
                },
                {
                    "@type": "HowToStep",
                    "position": 27,
                    "text": "Incubate on a Hula mixer (rotator mixer) for 10 minutes at room temperature."
                },
                {
                    "@type": "HowToStep",
                    "position": 28,
                    "text": "Briefly spin down the tube and pellet the beads on the magnet until the eluate is clear and colourless, for at least 1 minute."
                },
                {
                    "@type": "HowToStep",
                    "position": 29,
                    "text": "Remove and retain 20 \u00b5l of eluate into a clean 1.5 ml Eppendorf DNA LoBind tube."
                },
                {
                    "@type": "HowToStep",
                    "position": 30,
                    "text": "Prepare the following reaction in a 0.2 ml thin-walled PCR tube:\r\n\r\nReagent \t                           Volume\r\n2x LongAmp Taq Master Mix \t           25 \u03bcl\r\nPR2 Primer diluted to 10 \u03bcM \t           2 \u03bcl\r\nReverse-transcribed sample from above \t   20 \u03bcl\r\nNuclease-free water \t                   3 \u03bcl\r\nTotal \t                                   50 \u03bcl           "
                },
                {
                    "@type": "HowToStep",
                    "position": 31,
                    "text": "Incubate using the following protocol:\r\n\r\nCycle step \tTemperature \tTime \t    No. of cycles\r\nDenaturation \t94 \u00b0C \t        1 mins \t    1\r\nAnnealing \t50 \u00b0C \t        1 mins \t    1\r\nExtension \t65 \u00b0C \t        15 mins     1\r\nHold \t        4 \u00b0C \t        \u221e \t        "
                },
                {
                    "@type": "HowToStep",
                    "position": 32,
                    "text": "Resuspend the AMPure XP beads (AXP) by vortexing.  "
                },
                {
                    "@type": "HowToStep",
                    "position": 33,
                    "text": "Transfer the sample to a clean 1.5 ml Eppendorf DNA LoBind tube. "
                },
                {
                    "@type": "HowToStep",
                    "position": 34,
                    "text": "Add 40 \u00b5l of resuspended AMPure XP beads (AXP) to the reaction and mix by flicking the tube."
                },
                {
                    "@type": "HowToStep",
                    "position": 35,
                    "text": "Incubate on a Hula mixer (rotator mixer) for 5 minutes at room temperature."
                },
                {
                    "@type": "HowToStep",
                    "position": 36,
                    "text": "Prepare 500 \u03bcl of fresh 80% ethanol in nuclease-free water."
                },
                {
                    "@type": "HowToStep",
                    "position": 37,
                    "text": "Spin down the sample and pellet on a magnet. Keep the tube on the magnet, and pipette off the supernatant."
                },
                {
                    "@type": "HowToStep",
                    "position": 38,
                    "text": "Keep the tubes on the magnet and wash the beads with 200 \u00b5l of freshly prepared 80% ethanol without disturbing the pellet. Remove the ethanol using a pipette and discard.\r\n\r\nIf the pellet was disturbed, wait for beads to pellet again before removing the ethanol.  "
                },
                {
                    "@type": "HowToStep",
                    "position": 39,
                    "text": "Repeat the previous step. "
                },
                {
                    "@type": "HowToStep",
                    "position": 40,
                    "text": "Spin down and place the tube back on the magnet. Pipette off any residual ethanol. Allow to dry for ~30 seconds, but do not dry the pellet to the point of cracking."
                },
                {
                    "@type": "HowToStep",
                    "position": 41,
                    "text": "Remove the tube from the magnetic rack and resuspend pellet in 21 \u00b5l nuclease-free water."
                },
                {
                    "@type": "HowToStep",
                    "position": 42,
                    "text": "Incubate on a Hula mixer (rotator mixer) for 10 minutes at room temperature."
                },
                {
                    "@type": "HowToStep",
                    "position": 43,
                    "text": "Briefly spin down the tube and pellet the beads on the magnet until the eluate is clear and colourless, for at least 1 minute."
                },
                {
                    "@type": "HowToStep",
                    "position": 44,
                    "text": "Remove and retain 21 \u00b5l of eluate into a clean 1.5 ml Eppendorf DNA LoBind tube."
                },
                {
                    "@type": "HowToStep",
                    "position": 45,
                    "text": "Analyse 1 \u00b5l of the strand-switched DNA for size, quantity and quality using an Agilent Bioanalyzer and Qubit fluorometer (or equivalent)."
                },
                {
                    "@type": "HowToStep",
                    "position": 46,
                    "text": "Prepare the NEBNext Ultra II End Repair / dA-tailing Module reagents in accordance with manufacturer's instructions, and place on ice:\r\n\r\nFor optimal perfomance, NEB recommend the following:\r\n\r\n1. Thaw all reagents on ice.\r\n2. Flick and/or invert the reagent tubes to ensure they are well mixed.\r\n     Note: Do not vortex the Ultra II End Prep Enzyme Mix.\r\n3. Always spin down tubes before opening for the first time each day.\r\n4. The Ultra II End Prep Buffer may have a little precipitate. Allow the mixture to come to room temperature and pipette the buffer up and down several times to break up the precipitate, followed by vortexing the tube for 30 seconds to solubilise any precipitate."
                },
                {
                    "@type": "HowToStep",
                    "position": 47,
                    "text": "Combine the following reagents in a 0.2 ml PCR tube:\r\n\r\nReagent \t                       Volume\r\ncDNA sample \t                       20 \u00b5l\r\nNuclease-free water \t               30 \u00b5l\r\nUltra II End-prep reaction buffer      7 \u00b5l\r\nUltra II End-prep enzyme mix \t       3 \u00b5l\r\nTotal \t                               60 \u00b5l        "
                },
                {
                    "@type": "HowToStep",
                    "position": 48,
                    "text": "Thoroughly mix the reaction by gently pipetting and briefly spinning down."
                },
                {
                    "@type": "HowToStep",
                    "position": 49,
                    "text": "Using a thermal cycler, incubate at 20\u00b0C for 5 minutes and 65\u00b0C for 5 minutes."
                },
                {
                    "@type": "HowToStep",
                    "position": 50,
                    "text": "Resuspend the AMPure XP Beads (AXP) by vortexing."
                },
                {
                    "@type": "HowToStep",
                    "position": 51,
                    "text": "Transfer the DNA sample to a clean 1.5 ml Eppendorf DNA LoBind tube."
                },
                {
                    "@type": "HowToStep",
                    "position": 52,
                    "text": "Add 60 \u00b5l of resuspended the AMPure XP Beads (AXP) to the end-prep reaction and mix by flicking the tube."
                },
                {
                    "@type": "HowToStep",
                    "position": 53,
                    "text": "Incubate on a Hula mixer (rotator mixer) for 5 minutes at room temperature."
                },
                {
                    "@type": "HowToStep",
                    "position": 54,
                    "text": "Prepare 500 \u03bcl of fresh 80% ethanol in nuclease-free water."
                },
                {
                    "@type": "HowToStep",
                    "position": 55,
                    "text": "Spin down the sample and pellet on a magnet until supernatant is clear and colourless. Keep the tube on the magnet, and pipette off the supernatant. "
                },
                {
                    "@type": "HowToStep",
                    "position": 56,
                    "text": "Keep the tube on the magnet and wash the beads with 200 \u00b5l of freshly prepared 80% ethanol without disturbing the pellet. Remove the ethanol using a pipette and discard."
                },
                {
                    "@type": "HowToStep",
                    "position": 57,
                    "text": "Repeat the previous step."
                },
                {
                    "@type": "HowToStep",
                    "position": 58,
                    "text": "Spin down and place the tube back on the magnet. Pipette off any residual ethanol. Allow to dry for ~30 seconds, but do not dry the pellet to the point of cracking."
                },
                {
                    "@type": "HowToStep",
                    "position": 59,
                    "text": "Remove the tube from the magnetic rack and resuspend pellet in 61 \u00b5l nuclease-free water. Incubate for 2 minutes at room temperature."
                },
                {
                    "@type": "HowToStep",
                    "position": 60,
                    "text": "Pellet the beads on a magnet until the eluate is clear and colourless, for at least 1 minute."
                },
                {
                    "@type": "HowToStep",
                    "position": 61,
                    "text": "Remove and retain 61 \u00b5l of eluate into a clean 1.5 ml Eppendorf DNA LoBind tube."
                },
                {
                    "@type": "HowToStep",
                    "position": 62,
                    "text": "Quantify 1 \u00b5l of eluted sample using a Qubit fluorometer.\r\n\r\nTake forward the 60 \u00b5l of repaired and end-prepped cDNA into the adapter ligation step. However, at this point it is also possible to store the sample at 4\u00b0C overnight.                  "
                },
                {
                    "@type": "HowToStep",
                    "position": 63,
                    "text": "Spin down the Ligation Adapter (LA) and Quick T4 Ligase, and place on ice."
                },
                {
                    "@type": "HowToStep",
                    "position": 64,
                    "text": "Thaw Ligation Buffer (LNB) at room temperature, spin down and mix by pipetting. Due to viscosity, vortexing this buffer is ineffective. Place on ice immediately after thawing and mixing. "
                },
                {
                    "@type": "HowToStep",
                    "position": 65,
                    "text": "Thaw the Elution Buffer (EB) at room temperature and mix by vortexing. Then spin down and place on ice."
                },
                {
                    "@type": "HowToStep",
                    "position": 66,
                    "text": "Thaw the Short Fragment Buffer (SFB) at room temperature and mix by vortexing. Then spin down and place on ice."
                },
                {
                    "@type": "HowToStep",
                    "position": 67,
                    "text": "In a 1.5 ml Eppendorf DNA LoBind tube, mix in the following order:\r\n\r\nBetween each addition, pipette mix 10-20 times.\r\n\r\nReagent \t                        Volume\r\ncDNA sample from the previous step \t60 \u00b5l\r\nLigation Buffer (LNB) \t                25 \u00b5l\r\nNEBNext Quick T4 DNA Ligase \t        10 \u00b5l\r\nLigation Adapter (LA) \t                5 \u00b5l\r\nTotal \t                                100 \u00b5l      "
                },
                {
                    "@type": "HowToStep",
                    "position": 68,
                    "text": "Thoroughly mix the reaction by gently pipetting and briefly spinning down."
                },
                {
                    "@type": "HowToStep",
                    "position": 69,
                    "text": "Incubate the reaction for 10 minutes at room temperature."
                },
                {
                    "@type": "HowToStep",
                    "position": 70,
                    "text": "Resuspend the AMPure XP Beads (AXP) by vortexing."
                },
                {
                    "@type": "HowToStep",
                    "position": 71,
                    "text": ""
                }
            ]
        },
        {
            "@id": "#protocol-35",
            "@type": "LabProtocol",
            "name": "Sequencing Submission",
            "description": "Submit samples for sequencing at the genomics facility. Links kevlab samples to QC app runs after sequencing is complete.",
            "version": "1.0",
            "category": "sequencing"
        },
        {
            "@id": "#sample-352",
            "@type": "BioSample",
            "name": "body_library",
            "materialType": "sample",
            "isBasedOn": [
                {
                    "@id": "#sample-274"
                },
                {
                    "@id": "#sample-317"
                },
                {
                    "@id": "#sample-338"
                }
            ]
        },
        {
            "@id": "#sample-353",
            "@type": "BioSample",
            "name": "head_library",
            "materialType": "sample",
            "isBasedOn": [
                {
                    "@id": "#sample-276"
                },
                {
                    "@id": "#sample-312"
                },
                {
                    "@id": "#sample-334"
                }
            ]
        },
        {
            "@id": "#instrument-gridion",
            "@type": "Thing",
            "name": "Oxford Nanopore GridION Mk1",
            "additionalType": "http://purl.obolibrary.org/obo/OBI_0002751"
        },
        {
            "@id": "#process-81",
            "@type": "CreateAction",
            "name": "Direct cDNA library prep of Helicoverpa head and body samples for nanopore sequencing",
            "instrument": {
                "@id": "#protocol-19"
            },
            "startTime": "2024-06-27",
            "category": "sample_prep",
            "description": "Three body samples were pooled and three head (tail?) samples were pooled prior to library prep using the LSK114 kit.",
            "result": [
                {
                    "@id": "#sample-352"
                },
                {
                    "@id": "#sample-353"
                }
            ]
        },
        {
            "@id": "#process-82",
            "@type": "CreateAction",
            "name": "Nanopore sequencing of Helicoverpa head and body cDNA libraries",
            "instrument": [
                {
                    "@id": "#protocol-35"
                },
                {
                    "@id": "#instrument-gridion"
                }
            ],
            "startTime": "2024-06-28",
            "category": "sequencing",
            "object": [
                {
                    "@id": "#sample-352"
                },
                {
                    "@id": "#sample-353"
                }
            ]
        }
    ]
}