Tan0021166 (gene) Snake gourd v1

Overview
NameTan0021166
Typegene
OrganismTrichosanthes anguina (Snake gourd v1)
DescriptionNADH-ubiquinone oxidoreductase chain 1
LocationContig00127: 57878 .. 66009 (+)
RNA-Seq ExpressionTan0021166
SyntenyTan0021166
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonCDSpolypeptide
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGGATTGCCCTTACGCGGTCAACGAACTCATACTAATGCTAGGACTTGTCGCAAGCGAATTCGGAAATGAAATCAGTCTACCGAAAGCCCTTGGTACTTGTCGGATCAATCACACTGATAGCTAAAATCGTTCACTGAAATTTTGTGTCGTTTTTTTTTGGTATTTCAGCGGTTACTAATCTAGTATACGTATAGTATGCCTCCTTCGCCACTCCATTAGTGGCTCGGCTTCGTCCTAGAAGCTACAGCTTCCGCCTCTCTAGGCTTCACTATCGCTCATGACTGGTATATGGATCTCTTTATTTATGTAGTGGTCGGCCTGATAGAAGCTTGGCCAGAAGCGACTAGTCGCTTCCCGAATGCCTCTTGAGTAAATAGGGGGTCTTTCTTCTTTCCAATGCCTCCTTCCTTGCCGCCAACGGAGAGTAAGCAAGCGACCTTGCTTGCATTCGTCAAAGGGTAGCTTCCGCGCCCTTCCTGCCTGCTGAAATTGATGTGAATGATCGTGTCTTCAAATCCTATTTAGTCTTTTTATCTCTGTCACTGAAACAAGAAGTTCTGTCTCTGTTTTATTTTCGGATTCCGAGGATGAGCCGGCCGATCCTAACATCATTTATGAGGAGCCGGACGACGAAGCCTCCTCCTCAGATAAAGATGTCTCCGATGCGACTCTCCCGGCAAGAACCACTTTTTCTATTGTGATTTTTTTGCGGGTTCGGTCAGGTAATAGAAGCTAAGGAGAGATGCTTTCCATCAGTCAAAAGCAGATATCGCCCCCCATGCTCCCCGGTCCGCTTACCGAGGAATAGAAAGGGAAGAACTGGAGCCAGAGCTAGTTGGGTTGGGGTAAAGAGCCGTAAGCGCGGTGGGGGGTGACAGAGGACGTGCTCGTACGGTTCAAAGAAGGGTATGATCAACTCGTTGATTGTTGGGAACTTTCACTCCTCTATATTCGAAATATGCCTTTCTAGGAGCATTACGATCTGCAGCTCAAATGGTCCCTTATGAAGTCTCTATCGGTCTTATTCTTATTGTGCGCCTTGTGAGCGCGTTTGGATCCGCGAAGGCAATCGCTCGGATGTTCTCCTAACCCAACCCGGGAACGGACTGGAGGAATCGCAGCATGGGGAATGTCCGCGTCTCGTCGCAAGGCTCATTTTGAGTTGTGGGTCATAGGGGGGTTTATCTGATCAAGGGCCGGGGCACAAGGGTCCTGGTACTATCCAGGTGCGAAGAACCCCGGGGGTGACTGCAATGAGCAGAAATCTCACTCACCGGCCTAAACGACGAGCAAACACTCGAACGTGAGAGCAAGGGATCACCCAAGGAATGGACGAGCTCCAAGGAGGGAGGCAAGAACCATGCTTTCAGAGAAGTGGCGGTCCGAATCTTATCTGAATTGCGAGAATAACAGACTAAGCCATGCCTATATCTATATATAGGCTCATTCTCCAAACGGCGCGGGGCCAAGCCTTTAGGTTGTTTAAGTAGATTGGGTGACAGATCGGCCATAGCTGTACTCCGGGATATAAACCAGGGCAACAAATGTCGAGCATACGACGATGCCGCCCGTTTTCATTTCGTGGAAGTCCCCGGCAGAGGAAAGAAAGGGCTGTAGGTGATGGCGCGTTCTGCTTCTTATCTAGAGAGGGGCGAAGTGACTCGACCAGAGGGAGAGGGGCGCTGAAATCGTTCCTATTGGGTCGTGCGTGGCAGCTGGTATAGATGAATAAAGGCGGGCCGCTTCAACGGGACCTATTCTCTTAATAGGCGGCAAAGCGGAATAGGAAAGGGGCCGAGCTGACTGATGAGTGCCTTTTTAGCCTTTAGAAAAAGGCTCTCATGTGAAGCTAACATGGCTGGCTACATACAAGTATAGCCAAAGAAAGATGAGACGGGACGGACGGTCAGAGGCCGCAGCGGGACTACCATAGGAAAGCCCGCCCCCTCCCGCTAACATAGAAAGAGATTCCCGTAACGTAAGAGTCTCTATGTGAATCTCTTCCCGACCAGGCCGAATCGGGCCACCACTTGGGGTGGGAATGGCTCAGCCCACATGCATCATTTGATGAAAGCACTCCAGTCCAGTCGCCTCCTCGAAGTGGCTTGTCAACCACGCTTTCCCTCCCTCAAAACAATGCTCCTCACCAAAAGCCCTTCCTTGGATTGGGGCAACACAGCAATGAGTAGTTCGCTCCAGGACTCCACCCCCTCGAGAGCAGGATGCCGGCCGAGATGGAGCTGGAAGCCAACCTATACTTTCCTGGGGCTTGCCCCAACATCTAAATCAAATTGTTGGCGGGCTAGAAAAGGAACCAGCCCAGCCTCTTCAAGAAAGCTTTGCGTGGTAGGCGCTGCCTATTCACTCGGACAATGCTCTGAACACGAAAGTGTGCAGCCCCCTTCTCCCATGCTGAGTCACAGGCAGCGCCTCGGAAAGCACGGACGAGCCACATGCAGGGAAACTTGCACGTGTGGTTCTGGCCGGGGACCCCGGTATACTGTACTAATATGTGTAGGTCCCCGTAATTCGAGTGAGATTGTCATGGCGCAAAAGCAGATATGGTCCGGTATTCCCTTGTTCCCTGTATTGGTTATGTTCTTTATTTCTCGTCTAGCAGAAACTAATCGAGCTCCGTTTGATCTCCCAGAAGCGGAAGCTGAATCAGTTGCAGGCTATAATGTAGAATATGCGCGGGATGCGATCCTTAATAGTCCACTGTTGGCGGAAGCCAATGTCCCGGGGTCCCGGGGACTCATTCTGACTGAAACAAGGGGTGGGTCTTTACCAACTTTCAAATATTCGATTTTAGGGAAGCCAAAAAACGTGAGCGCCGGGAGCGAGCCTTATTCAAAAAAAAGCCCCTTCCCCGAGTTGACTCGGTAAAGTGGCTTCGCTCCTTCCCCTCGTCAACTCGGGAAAGCAGCTTCGCCCCTGACTCTCGAACAAAGCAAGGGATTGAGCAGCGCGAAAGCCACGAGAATACGCCCTTATTAGCGTATTAGAGTCGACGGCGTTAGCGCCCCCTTACCCCTAAACAAAAAGGTTTTTCATAAAGTTGTCTACGCCTTTTGAAAACCTTACTAATAATAATAAAGGGAAAAATGCGCTCAAACAACAAAAGGCGCTCAAACAACCTATCTAAGCTCTATCGTTGTAAAGCTACAGCTCAAAAGCCGGCCTTACCTTCTATGTTATTAGTCAAGCCTAAAGCCCTTTACTAATAGAAAGGGATTTTCTTGCTTGTTTAGTAAAATCACGCTTTTCATTTTGATAGGAGTAGATGCTTGCAGGGGCAGGGCACTCTTCATTCTTCATTCGAAACTAATGAATGTTGGGTCGGGGGGTTCTGCCTTGTTATCAAAAAGAGAGTTGGGTAAAGCAAACTCCCTCCTTGGACGAGCACGGGGCTTAGTCAAGTAGAACCGGGTTGCGCTGCTGGATGCTCCGATCGAAAAAAAAATCAGTGGGGCCATGCCGGTACGACTGAATATGCGTTAGAAAGGTCAATCCCTCCCCTACGACACCAAAAAAAACCGGGCCGAACTTCTAACAGCCCGCCCGCTTCCATAGAACAATATCGTGGCAACGTAGACCTAAGTGGTCATATTGGATCCTTGGGAACCATCACAAGTACGGCCGGCCTATATTTGAACGAGAATGCCGTGTCGTCCAGCGAAGCCTAGAAGAAGGTGACTCGCGCAGACAGCTGACTCCTTTTCAATAGAAAGGAATAGCCAAACCAACCCAGCTGGCTGGTCAATCTCAAAGATCTTATCGGCCGGCAAACCGGAGACGGACGACCACGGTCCCGACCTTACCAGCACCGGAGGTTTACTAATCAATGAACCCCCTCTCCCTACTTTCTTTTCTGACAAAATCAACCAAGCCTAACCGGTCACGACATGTTGTTGATATTGATTGAGTTTGAGGGACTTTCGTTGACTGAATCCATCCATAAACCTAGACCCCGGCAACCTTCGTAACCAAAGCGTCACGACAACATCCAAAGGTCACTTTTCGATTCTGAAGTCGGTGAGCAAGGAGGAGCACGTAGGAATGCCGACCACTACATAAATAAGCCACTTGTGGCTGAGAGAAAGCGAGCAGCACCTTGTCTTGTATAGGTTGGGCGGAGCTTGAAGAAGCGAGCCCAACGCAGAGAAAGCCATTGCGCGCTAGCCTAGCTAGCTAGCGTTTTTCAGCTGGCTGTTCTGTTAGTTGTAGCGCGCCTTCCCTCCTTCTCTCACTTCGGAAAGATTTAGCAGTATTTTCTTATGATGACCTGGTCGAGAGAGTATGATACATCGGTGTAAAAGATTGAGTGGGATCTGTGAGGTTGGTTATAGTAAGGCCTGGCCGGAAAGTGTTCTTGCCTCTATCATTAGCTCGGGTAGTCGCCGTTTCTGGTGTTTCAGTCACCTTTCAATGGCTCCCTTAATTATGTGCGAGGAATTTCCCTCGTCGAGTAATGGGAAGCGGGCTAGTCCCCGAAAATGCCCGTTCCTTTGTCGTTGGGGCCCAAAATCTTCCTTGCTGAGACTTGACTTGTAGTCTTGTAAGATTGCACTTGAAAAGACCTTTAGAGAAAGAGATGAACCCGCCGCAGCCAATTACTCCGAGGAAGAACAAGTGCATAAAGCTAACCCATCTAACGAGTAAAGAGCTAACCATATTCTAGTATATGTTATATATAAAGAGAAAGCAGACCAAAATCTCGATCGAGAAAAGCTTCTTCAAGGCCTTTTTATGATCTTCTACGGGGCGTTTACTCTACCTCAAAAGGAAAGGTAGAACTACAAGAAGCAAGAGTGAACTATCGAGACGAGTAGTATCTCAAGGAATAGCTTTCCCTAAAGAAGAAAGACCACCTATTTACTCAAGAGGTAGTGGAGGCCAACTAGCAATTCCAGAAAATGAGTTTGCTTATTGATCCAAGTAAGCATTAAAATCTTCTATCGACTGGGTTACTTGCTGAAAATCTTACTAAAATGAAAACGGAAACCACCTTTTTGGAACTCCATGTTTCCGTTTTTCCTCTTCTATAAGTTTTCTGTTTTTTTTTTCTTTTAGGTTGTGTATGGACTGCATCAATTTCCCTCCTGTTGGAGAGGATTCGGCTTCAACAACAAGATCGACAAAACAAAAACAGAAGAATAGGAAAAAACGTGACATAAAAGTTTCTAACTTTCTTAACTACGATGAAAAGTCTTCGATATACCATGAATAGGCTCTTAGGTCAAAACCCCATGTCAGTCACCCGCATACCAATGTCTTTAAGCCGAACCTTCCACTTGATGAGAAACTTTAGGCATGAACACCTCCTCCGTTTTTGCATAGCTTGCACTCTCTTTATTCGCCAATGAACATCCACCTTTCGTCTGTAACGTGCATTTTTTGCTTGTTTGGATCCTGTCGAGTGAAAGCCAATGCGTTTTCCGAAGGGGGTTTTGAAAAAAAGGCCTACCCGTTGGCAGGAGATGTTGAAGTTGCGCATGAAGTAGTCTCTATCTTCCGGTCGGAGACAAGGGATGGATGTCGCTAGGCTAGGTCAACTCTATCATTGGTTTCATTATCCCTATAACGATCACTAAATAAAGATATGTGCTACTACGAGACCGATGCAGCGAAGCTAGGTGGTGCTATTATGGCGGGGAAGGGTCGACTTCTGCTCCATCGGAATGCTTTTTGTGGCAGGTCTTTCTATTACCGATATGGACCTCACTAACGGGTCTCGTTCCGTATCTAGGTCTCGATCTATATCACTAAGGTCAGTATATGAATCCGCTGCGTCTTTTATCTCAGGTCTTGGATCACCTACTAACTACTGCGCTGCGACAAGGACTGGACCTGGAACCATACGAAGGGGGGGGGGTGTATAGGTCTCGATCACGTGGTTGGGGTATCGATCTGGAGCTACTGCATATGCGACTGGGTCACCCAGGTATTTAAGCTATGTATGGATCGCCAGTGTATGGATCACTGGCTAAGGCTGGCTTAGATGGGCTTGACTTAGACGGCTTAATAGATGGCTTAATCTGCATAATCTACTGAATCCACTTAAGCTTAGTTCACTAAGTCAACTGCCTATACCCCAGTTCCTTTCCCCGCCCGGGTATGGATTTTTCACCTTTTCAAAAATTGATGGCATTAAAAAAGCTCTGTACGGTGAGTAACCCAGATAATAATAGGATAATGAAAGAGATCTTTAAATGAAAAAGTATACAGCAGGATCTTGGTATGGGTCGACTAGTCATAAGTGGATATGCTGTTAGCTCTACCGGAGATAGGTATGGAAGCCACTATGAGTATATATCTAGGTATGCTTCTAGATAAGGAACTGAACCTCACGCCATAAACGGAATCCCTATCCTTCGCTTTATCGGGCGCGTGAGAGAACGAAGGAGAGCATTAAGCCAATAAGCCGGTCCATCAGCAGTCTCCGTGACGGAAAAAGCGGCATCGTTGACTCCAGAGAAGTAAGCGAAGGACCGTCGGTAAGCTGCTCCGGTATCGGCAGCATTCCTTATCTATCGTGGAGCTCGGTAGTATTCGCAGTATTAGTCTCAGTAGCATTTCTTATGGCAGCGGCAGAAGCACTGACTGACGTTGTGAGCATCTCGGGTGTGAAGGAACGGCATCGGCAGCGGTAGTACGATTCTATCCGTTCGAGTCTAGGTCTACCGGTGGGTCGTCCTCTGAGTCACTCTCGCAAACAAAGAAAAAAAGAGATGGAATTAATTCAAGCCAGCAAAGGACTAAGGTAGGGGACGAGAAAGGTAAAGAGAAGGGGCCGTCGTTGGTGCGTAACAGAGCTTTCCTATCGACGATCTTTCTCGGTGCATAAGCGAGGCTTAGCGGTCGAAGTACCGCATAAGCAAGAAAGCCAATAGACCTTGAATAGCCTGTACGAAAAGACTGTTGAAGAGGATTTTACGTCAGTCTCAAATCCATATATCAATCTTGTACGCAAGTTGGCACAGCGCTTTCGCTTTAAATCAATCTCGCTCATCTGGTCTGCCCGGTCAAATCCGCTCTCCTGCCTGTGTATCCCATGCCCGGTGCCGTTGATCTGTCTGATGGGAGAGATCCACCAATTCCTTTATTTCAATATGTTGTATCCTCCCCAGAGGTGGAGTTCTCTCTATTCAATAGATCATTTCCTGCCAGGGGTGAAGGTCATCTGTCTGATCTATATGGAATTTCGTTTATATGGTTACATTGAATTAGCCAAAACAGGAGTTTATAGCCTTTCTTTGACAAACTAGCTACTCGTCTCGGGCAGAAACCTTACGGCAAGCCTCTGGAGAGGGCAACCCTTGACGTGGGGACTCTCTCTTGGGGTCTTTGGCTTTACTCATTTAGGGCTTGCTTGGCCCATCAATTCCTGGTGGCAAAGTGGGCGGGGCAATCATATGCTCGGCGAGGAAAGCGCTTGAGGAGATATAAGGACTACGATCTCTTAGAGCTATTTTTTCTTACTACATCTTAGAAAAGGGGAGAAAAAGAAAAAATCCTTGGAAAAGCCGAGAGACTTTAGAGGCCTCTCTTCCCATATATCTGACTGACAAAGGGAAGAGAGCAACCATCTAATCCATTCCTTGCCTTGCTTAGCTTACGGGCTTGAAGAGGTTATTGCCTGTACCATTAGCCTACGATTGTTGGCATATTAGACTACGGGCTATAACTAGCTAGCTTAGCGGGACTAGCTTGAATGGATTGCCTGCCTTTCATAGCTTACTAATAGATACTAGTAGGAACTACAAACAGCTATCAAGACCGGATCAACTAGATGTTCTATGCTTTCAGATCAAATCATCCATTGGTAGCCCAACAACGCGGACGAAGTTCCGATACCACTAGCCGTCCCATCTTGATATCCCCTAGGAGCACCAGAAAGAATGTTTTACAGTTTCGTGAGGCTAATCAAACAACGGCAGATAATTCGAACATGAAAATCACATTGGCGCATTAGCGGCCGGGAAGAAAGTCACTCATAGTCCAGGCTTCGAACACATTAATAAGTTAATAAGGAAGAGCCCACACCTACTCAGGATATCTAGTCTCATAGGGGACGAGCATAGCTACTCGGGGTTCCAAACCTTACTCAAATACCAGTTACTTAAGTAA

mRNA sequence

ATGGATTGCCCTTACGCGGTCAACGAACTCATACTAATGCTAGGACTTGTCGCAAGCGAATTCGGAAATGAAATCAGTCTACCGAAAGCCCTTGGTACTTCTACAGCTTCCGCCTCTCTAGGCTTCACTATCGCTCATGACTGTTCTGTCTCTGTTTTATTTTCGGATTCCGAGGATGAGCCGGCCGATCCTAACATCATTTATGAGGAGCCGGACGACGAAGCCTCCTCCTCAGATAAAGATGTCTCCGATGCGACTCTCCCGGCAAGAACCACTTTTTCTATTGTGATTTTTTTGCGGGTTCGGTCAGGAGCATTACGATCTGCAGCTCAAATGGTCCCTTATGAAGTCTCTATCGGTCTTATTCTTATTGTGCGCCTTGGGGGTTTATCTGATCAAGGGCCGGGGCACAAGGGTCCTGGCTCATTCTCCAAACGGCGCGGGGCCAAGCCTTTAGGTTGTTTAAGTAGATTGGGTGACAGATCGGCCATAGCTGTACTCCGGGATATAAACCAGGGCAACAAATGTCGAGCATACGACGATGCCGCCCGTTTTCATTTCGTGGAAGTCCCCGGCAGAGGAAAGAAAGGGCTGACTCCACCCCCTCGAGAGCAGGATGCCGGCCGAGATGGAGCTGGAAGCCAACCTATACTTTCCTGGGGCTTGCCCCAACATCTAAATCAAATTGTTGGCGGGCTAGAAAAGGAACCAGCCCAGCCTCTTCAAGAAAGCTTTGCGTGGCAGCGCCTCGGAAAGCACGGACGAGCCACATGCAGGGAAACTTGCACGTGTGGTTCTGGCCGGGGACCCCGGTATACTGTACTAATATGTGTAGGTCCCCGTAATTCGAGTGAGATTGTCATGGCGCAAAAGCAGATATGGTCCGGTATTCCCTTGTTCCCTGTATTGGTTATGTTCTTTATTTCTCGTCTAGCAGAAACTAATCGAGCTCCGTTTGATCTCCCAGAAGCGGAAGCTGAATCAGTTGCAGGCTATAATGTAGAATATGCGCGGGATGCGATCCTTAATAGTCCACTGTTGGCGGAAGCCAATGTCCCGGGGTCCCGGGGACTCATTCTGACTGAAACAAGGGGAGTAGATGCTTGCAGGGGCAGGGCACTCTTCATTCTTCATTCGAAACTAATGAATGTTGGGTCGGGGGGTTCTGCCTTGTTATCAAAAAGAGAGTTGGGTAAAGCAAACTCCCTCCTTGGACGAGCACGGGGCTTAGTCAAACCTAAGTGGTCATATTGGATCCTTGGGAACCATCACAAGACTGGACCTGGAACCATACGAAGGGGGGGGGGAACGGCATCGGCAGCGGTAGTACGATTCTATCCGTTCGAGTCTAGGTCTACCGGTGGGTCGTCCTCTGAGTCACTCTCGCAAACAAAGAAAAAAAGAGATGGAATTAATTCAAGCCAGCAAAGGACTAAGGTAGGGGACGAGAAAGGTAAAGAGAAGGGGCCGTCGTTGACCTTGAATAGCCTGTACGAAAAGACTGTTGAAGAGGATTTTACTTGGCACAGCGCTTTCGCTTTAAATCAATCTCGCTCATCTGGTCTGCCCGGTCAAATCCGCTCTCCTGCCTGTGTATCCCATGCCCGAGGTTATTGCCTGTACCATTATCTCATAGGGGACGAGCATAGCTACTCGGGGTTCCAAACCTTACTCAAATACCAGTTACTTAAGTAA

Coding sequence (CDS)

ATGGATTGCCCTTACGCGGTCAACGAACTCATACTAATGCTAGGACTTGTCGCAAGCGAATTCGGAAATGAAATCAGTCTACCGAAAGCCCTTGGTACTTCTACAGCTTCCGCCTCTCTAGGCTTCACTATCGCTCATGACTGTTCTGTCTCTGTTTTATTTTCGGATTCCGAGGATGAGCCGGCCGATCCTAACATCATTTATGAGGAGCCGGACGACGAAGCCTCCTCCTCAGATAAAGATGTCTCCGATGCGACTCTCCCGGCAAGAACCACTTTTTCTATTGTGATTTTTTTGCGGGTTCGGTCAGGAGCATTACGATCTGCAGCTCAAATGGTCCCTTATGAAGTCTCTATCGGTCTTATTCTTATTGTGCGCCTTGGGGGTTTATCTGATCAAGGGCCGGGGCACAAGGGTCCTGGCTCATTCTCCAAACGGCGCGGGGCCAAGCCTTTAGGTTGTTTAAGTAGATTGGGTGACAGATCGGCCATAGCTGTACTCCGGGATATAAACCAGGGCAACAAATGTCGAGCATACGACGATGCCGCCCGTTTTCATTTCGTGGAAGTCCCCGGCAGAGGAAAGAAAGGGCTGACTCCACCCCCTCGAGAGCAGGATGCCGGCCGAGATGGAGCTGGAAGCCAACCTATACTTTCCTGGGGCTTGCCCCAACATCTAAATCAAATTGTTGGCGGGCTAGAAAAGGAACCAGCCCAGCCTCTTCAAGAAAGCTTTGCGTGGCAGCGCCTCGGAAAGCACGGACGAGCCACATGCAGGGAAACTTGCACGTGTGGTTCTGGCCGGGGACCCCGGTATACTGTACTAATATGTGTAGGTCCCCGTAATTCGAGTGAGATTGTCATGGCGCAAAAGCAGATATGGTCCGGTATTCCCTTGTTCCCTGTATTGGTTATGTTCTTTATTTCTCGTCTAGCAGAAACTAATCGAGCTCCGTTTGATCTCCCAGAAGCGGAAGCTGAATCAGTTGCAGGCTATAATGTAGAATATGCGCGGGATGCGATCCTTAATAGTCCACTGTTGGCGGAAGCCAATGTCCCGGGGTCCCGGGGACTCATTCTGACTGAAACAAGGGGAGTAGATGCTTGCAGGGGCAGGGCACTCTTCATTCTTCATTCGAAACTAATGAATGTTGGGTCGGGGGGTTCTGCCTTGTTATCAAAAAGAGAGTTGGGTAAAGCAAACTCCCTCCTTGGACGAGCACGGGGCTTAGTCAAACCTAAGTGGTCATATTGGATCCTTGGGAACCATCACAAGACTGGACCTGGAACCATACGAAGGGGGGGGGGAACGGCATCGGCAGCGGTAGTACGATTCTATCCGTTCGAGTCTAGGTCTACCGGTGGGTCGTCCTCTGAGTCACTCTCGCAAACAAAGAAAAAAAGAGATGGAATTAATTCAAGCCAGCAAAGGACTAAGGTAGGGGACGAGAAAGGTAAAGAGAAGGGGCCGTCGTTGACCTTGAATAGCCTGTACGAAAAGACTGTTGAAGAGGATTTTACTTGGCACAGCGCTTTCGCTTTAAATCAATCTCGCTCATCTGGTCTGCCCGGTCAAATCCGCTCTCCTGCCTGTGTATCCCATGCCCGAGGTTATTGCCTGTACCATTATCTCATAGGGGACGAGCATAGCTACTCGGGGTTCCAAACCTTACTCAAATACCAGTTACTTAAGTAA

Protein sequence

MDCPYAVNELILMLGLVASEFGNEISLPKALGTSTASASLGFTIAHDCSVSVLFSDSEDEPADPNIIYEEPDDEASSSDKDVSDATLPARTTFSIVIFLRVRSGALRSAAQMVPYEVSIGLILIVRLGGLSDQGPGHKGPGSFSKRRGAKPLGCLSRLGDRSAIAVLRDINQGNKCRAYDDAARFHFVEVPGRGKKGLTPPPREQDAGRDGAGSQPILSWGLPQHLNQIVGGLEKEPAQPLQESFAWQRLGKHGRATCRETCTCGSGRGPRYTVLICVGPRNSSEIVMAQKQIWSGIPLFPVLVMFFISRLAETNRAPFDLPEAEAESVAGYNVEYARDAILNSPLLAEANVPGSRGLILTETRGVDACRGRALFILHSKLMNVGSGGSALLSKRELGKANSLLGRARGLVKPKWSYWILGNHHKTGPGTIRRGGGTASAAVVRFYPFESRSTGGSSSESLSQTKKKRDGINSSQQRTKVGDEKGKEKGPSLTLNSLYEKTVEEDFTWHSAFALNQSRSSGLPGQIRSPACVSHARGYCLYHYLIGDEHSYSGFQTLLKYQLLK
Homology
The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
P088341.2e-4786.32NADH-ubiquinone oxidoreductase chain 1 OS=Citrullus lanatus OX=3654 GN=ND1 PE=2 ... [more]
Q013001.7e-2896.92NADH-ubiquinone oxidoreductase chain 1 OS=Petunia hybrida OX=4102 GN=ND1 PE=3 SV... [more]
P925581.5e-2489.23NADH-ubiquinone oxidoreductase chain 1 OS=Arabidopsis thaliana OX=3702 GN=ND1 PE... [more]
P318391.5e-2489.23NADH-ubiquinone oxidoreductase chain 1 OS=Oenothera berteroana OX=3950 GN=ND1 PE... [more]
Q011481.5e-2489.23NADH-ubiquinone oxidoreductase chain 1 OS=Triticum aestivum OX=4565 GN=ND1 PE=2 ... [more]
Match NameE-valueIdentityDescription
TXG46235.11.9e-8554.48hypothetical protein EZV62_028266 [Acer yangbiense][more]
KAG4906012.11.1e-8052.33hypothetical protein JHK86_057259 [Glycine max] >KAG5070465.1 hypothetical prote... [more]
KAG6383906.14.1e-7766.27hypothetical protein SASPL_156330 [Salvia splendens] >KAG6384669.1 hypothetical ... [more]
KAF4349930.13.8e-7097.86hypothetical protein G4B88_002352 [Cannabis sativa][more]
PHT42545.11.9e-6144.77hypothetical protein CQW23_16570 [Capsicum baccatum][more]
Match NameE-valueIdentityDescription
A0A5C7GNZ19.0e-8654.48Uncharacterized protein OS=Acer yangbiense OX=1000413 GN=EZV62_028266 PE=3 SV=1[more]
A0A6N2KCU03.8e-8446.44Uncharacterized protein OS=Salix viminalis OX=40686 GN=SVIM_LOCUS121579 PE=3 SV=... [more]
A0A6N2LVG46.4e-8445.49Uncharacterized protein OS=Salix viminalis OX=40686 GN=SVIM_LOCUS279543 PE=3 SV=... [more]
A0A6N2N7R97.9e-8245.32Uncharacterized protein OS=Salix viminalis OX=40686 GN=SVIM_LOCUS478076 PE=3 SV=... [more]
A0A4D8Y5V72.0e-7766.27Uncharacterized protein OS=Salvia splendens OX=180675 GN=Saspl_047317 PE=3 SV=1[more]
Match NameE-valueIdentityDescription
ATMG01120.16.9e-3096.92NADH dehydrogenase 1B [more]
ATMG00516.16.9e-3096.92NADH dehydrogenase 1C [more]
ATMG01275.16.9e-3096.92NADH dehydrogenase 1A [more]
ATMG01130.15.5e-1178.43hypothetical protein [more]
ATCG01100.13.4e-0561.76NADH dehydrogenase family protein [more]
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR001694NADH:ubiquinone oxidoreductase, subunit 1/F420H2 oxidoreductase subunit HPFAMPF00146NADHdhcoord: 273..337
e-value: 4.8E-17
score: 62.2
IPR001694NADH:ubiquinone oxidoreductase, subunit 1/F420H2 oxidoreductase subunit HPANTHERPTHR11432NADH DEHYDROGENASE SUBUNIT 1coord: 253..389
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 462..489
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 450..492
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 62..77
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 192..214
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 56..83
NoneNo IPR availablePANTHERPTHR11432:SF17NADH-QUINONE OXIDOREDUCTASE PROTEINcoord: 253..389
IPR018086NADH:ubiquinone oxidoreductase, subunit 1, conserved sitePROSITEPS00668COMPLEX1_ND1_2coord: 318..331

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
Tan0021166.1Tan0021166.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0022900 electron transport chain
biological_process GO:0006412 translation
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0005739 mitochondrion
cellular_component GO:0005886 plasma membrane
cellular_component GO:0005840 ribosome
cellular_component GO:0016020 membrane
molecular_function GO:0008137 NADH dehydrogenase (ubiquinone) activity
molecular_function GO:0003735 structural constituent of ribosome