Spg034563 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg034563
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
DescriptionUnknown protein
Locationscaffold4: 15078792 .. 15086841 (+)
RNA-Seq ExpressionSpg034563
SyntenySpg034563
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGCGAAAACGAGAGCAAGAAAAGAGAGGGATAATGAGGAAGAAGAGGTACCTATTACCCCCGAAGCACCGATAGTGAAAGCAAAGAAGAAGAAGACACCAGAAGAAAAAGAAGCTAAGAGGAGAAGAAGACAGCAGAGGGCTGAGGATCAAAAAGTTGTAGAGAAGGTGGTGGAGGACGTTGCTGCCACTGAAGAAGGCAATCAGAGGGAACCTGAAGTACAAAACCCAGAGCAGACTGAGCCGAGAGTTGCGGATACAGAGGAAGTTCGAGAAGAAAATACAGAGGAAGTTCAAGAAAAACAGACTGAGGATGTGCAAGAAGAACAGGTAGAGGTTGTGCCTGAAAAAGGTAATGAGCCAGTGCAGGAGGCTCGAGTAGAGGTGATCATGCCGGAAACACCAAAACGTCGCCGCGTAAAACGCAAGGCAGGACGCGTCAAGGTAGTCCAAACCGATACCCCCTCGTCTCCAACCACTGATTCTGAAAGAGAAAATGCAGAGAGAGAGGAGCAGGAGAAGAAAGAAGCCGAGGATAAAGCAAGAGAGGAAGCAGAGAAAAAGGCTGAAGAAGAAAGATTACGCAAGCAAAGGGCAGATAGGGGCAAGAGTGTTGCTGCAGCATCGGAGGAACCTGACGAAATAGAAGAGCCACAGTTGCCGTATTGCGCGAATTTTATGCAAATATTGACAAAGAAGACGGTTTCTAGGGAACAGGTTCTTCTGGCTTTTGCGATTTTGAGGTCTCTAAGCATTGATGTAGGGAAGATTATTGCTAGTGAAATATCTGGATGTTGGAAAAAGAAAGTGGGGAAACTGTTTTTTCCGAATACGATTACGATGCTTTGCAAGCGTGCAAGGGTTCCGGAGAATGAAGGTGATGTTATTTTATTTGACAAGGGAATTATCGATACATCTAACTTGGCACAGCTTCAGCGTACGCAAGAGGCACGTCAGGGTGGGCTTGTCTATGGCATCAACACGATCTTAGAACAACTTGCACTGTCGGCCAGCAGGCAGGAGTTTGCTGAGAGGCAAGCTTTAACCTTCTGGAACTATGTTAAAAGGCGTGATGCCAATCTGAAGAAGGCGCTGCAGGAGAATTTTTCCAAACCCTTGGACTGGTTAAGCTTAATTAGATCAAGAACTATTTTGCTACAGCAGAGCTTGGTTTTGCAGAATGCTCAGCCGAATAGAGGAGAGAGATTGGAGACCATCAAGGAAACAACCATTTGCAAGCTGATCAAGGGAATCAATATTTTCTTGTATTATTTTGTGAATATGGATATGCTTACTCAGATTGTAACGTCCATTAGGTCCCACTGGAATTTTCCAGCGAAGAAGAACAAGAAGGCTGCTGCGTTTTTGTTCGTTGAAGCGTCGTTGGCGAAGAACAGTCAAGTCTACAACGAAGAAGGCGCGTATTCGAGGCAGCGTCGAGACGCTGCGACCCTTTCCGAAATAATTAGGGCAAGCGTCACGACGCTGTCGCGACAGAATGGGCAGTGTAAAAGGAAAACGATGCAGTCTGATTTGGGGAGCTTCTTTGGAGAGAAAAACACGATTACAGAGCAGCAGAAAACGGCCAGAACACTGAGGAGATCGATAGGAGTTGATTTTGGGAGCTTAGATCGTGAGGATTGTGATGGGAATGCGCGGGAATCATGGCTAGCGAGTTTAAACTTTCTCCCTTTACTTCTTGTACTGATTTTATGA

Coding sequence (CDS)

ATGGCGAAAACGAGAGCAAGAAAAGAGAGGGATAATGAGGAAGAAGAGGTACCTATTACCCCCGAAGCACCGATAGTGAAAGCAAAGAAGAAGAAGACACCAGAAGAAAAAGAAGCTAAGAGGAGAAGAAGACAGCAGAGGGCTGAGGATCAAAAAGTTGTAGAGAAGGTGGTGGAGGACGTTGCTGCCACTGAAGAAGGCAATCAGAGGGAACCTGAAGTACAAAACCCAGAGCAGACTGAGCCGAGAGTTGCGGATACAGAGGAAGTTCGAGAAGAAAATACAGAGGAAGTTCAAGAAAAACAGACTGAGGATGTGCAAGAAGAACAGGTAGAGGTTGTGCCTGAAAAAGGTAATGAGCCAGTGCAGGAGGCTCGAGTAGAGGTGATCATGCCGGAAACACCAAAACGTCGCCGCGTAAAACGCAAGGCAGGACGCGTCAAGGTAGTCCAAACCGATACCCCCTCGTCTCCAACCACTGATTCTGAAAGAGAAAATGCAGAGAGAGAGGAGCAGGAGAAGAAAGAAGCCGAGGATAAAGCAAGAGAGGAAGCAGAGAAAAAGGCTGAAGAAGAAAGATTACGCAAGCAAAGGGCAGATAGGGGCAAGAGTGTTGCTGCAGCATCGGAGGAACCTGACGAAATAGAAGAGCCACAGTTGCCGTATTGCGCGAATTTTATGCAAATATTGACAAAGAAGACGGTTTCTAGGGAACAGGTTCTTCTGGCTTTTGCGATTTTGAGGTCTCTAAGCATTGATGTAGGGAAGATTATTGCTAGTGAAATATCTGGATGTTGGAAAAAGAAAGTGGGGAAACTGTTTTTTCCGAATACGATTACGATGCTTTGCAAGCGTGCAAGGGTTCCGGAGAATGAAGGTGATGTTATTTTATTTGACAAGGGAATTATCGATACATCTAACTTGGCACAGCTTCAGCGTACGCAAGAGGCACGTCAGGGTGGGCTTGTCTATGGCATCAACACGATCTTAGAACAACTTGCACTGTCGGCCAGCAGGCAGGAGTTTGCTGAGAGGCAAGCTTTAACCTTCTGGAACTATGTTAAAAGGCGTGATGCCAATCTGAAGAAGGCGCTGCAGGAGAATTTTTCCAAACCCTTGGACTGGTTAAGCTTAATTAGATCAAGAACTATTTTGCTACAGCAGAGCTTGGTTTTGCAGAATGCTCAGCCGAATAGAGGAGAGAGATTGGAGACCATCAAGGAAACAACCATTTGCAAGCTGATCAAGGGAATCAATATTTTCTTGTATTATTTTGTGAATATGGATATGCTTACTCAGATTGTAACGTCCATTAGGTCCCACTGGAATTTTCCAGCGAAGAAGAACAAGAAGGCTGCTGCGTTTTTGTTCGTTGAAGCGTCGTTGGCGAAGAACAGTCAAGTCTACAACGAAGAAGGCGCGTATTCGAGGCAGCGTCGAGACGCTGCGACCCTTTCCGAAATAATTAGGGCAAGCGTCACGACGCTGTCGCGACAGAATGGGCAGTGTAAAAGGAAAACGATGCAGTCTGATTTGGGGAGCTTCTTTGGAGAGAAAAACACGATTACAGAGCAGCAGAAAACGGCCAGAACACTGAGGAGATCGATAGGAGTTGATTTTGGGAGCTTAGATCGTGAGGATTGTGATGGGAATGCGCGGGAATCATGGCTAGCGAGTTTAAACTTTCTCCCTTTACTTCTTGTACTGATTTTATGA

Protein sequence

MAKTRARKERDNEEEEVPITPEAPIVKAKKKKTPEEKEAKRRRRQQRAEDQKVVEKVVEDVAATEEGNQREPEVQNPEQTEPRVADTEEVREENTEEVQEKQTEDVQEEQVEVVPEKGNEPVQEARVEVIMPETPKRRRVKRKAGRVKVVQTDTPSSPTTDSERENAEREEQEKKEAEDKAREEAEKKAEEERLRKQRADRGKSVAAASEEPDEIEEPQLPYCANFMQILTKKTVSREQVLLAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKRARVPENEGDVILFDKGIIDTSNLAQLQRTQEARQGGLVYGINTILEQLALSASRQEFAERQALTFWNYVKRRDANLKKALQENFSKPLDWLSLIRSRTILLQQSLVLQNAQPNRGERLETIKETTICKLIKGINIFLYYFVNMDMLTQIVTSIRSHWNFPAKKNKKAAAFLFVEASLAKNSQVYNEEGAYSRQRRDAATLSEIIRASVTTLSRQNGQCKRKTMQSDLGSFFGEKNTITEQQKTARTLRRSIGVDFGSLDREDCDGNARESWLASLNFLPLLLVLIL
Homology
[Close]
BLAST of Spg034563 vs. NCBI nr
Match: PON46472.1 (hypothetical protein PanWU01x14_251180, partial [Parasponia andersonii])

HSP 1 Score: 89.0 bits (219), Expect = 1.5e-13
Identity = 56/166 (33.73%), Postives = 87/166 (52.41%), Query Frame = 0 

Query: 233 KTVSREQVLLAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKRARVPENE 292
           KTVS++++LL  ++L   SI+VG++I SEI  C  +K G LFFP+ IT LC+ AR P   
Sbjct: 192 KTVSKDRMLLLHSMLIGKSINVGRMIHSEIRACAARKTGALFFPSLITRLCRNARAPFLV 251

Query: 293 GDVILFDKGIID---TSNLAQLQRTQEARQ---------------GGLVYGINTILEQLA 352
            +  L + G ID    + +AQ   T+  +Q               G ++  +  + ++L+
Sbjct: 252 NEEKLHNTGEIDAIAVARIAQEGPTESTQQPSSSRPATASSNRTNGDILQQLKALEQRLS 311

Query: 353 LSASRQ-------EFAERQALTFWNYVKRRDANLKKALQENFSKPL 374
               +Q       +   +Q   FW Y K RD  LKKALQ NF++P+
Sbjct: 312 QQEVQQYHMMSLLQHTHKQQQQFWAYSKERDTALKKALQNNFTRPM 357

[Close]
BLAST of Spg034563 vs. NCBI nr
Match: PON78020.1 (hypothetical protein PanWU01x14_023740 [Parasponia andersonii])

HSP 1 Score: 87.8 bits (216), Expect = 3.3e-13
Identity = 60/158 (37.97%), Postives = 84/158 (53.16%), Query Frame = 0 

Query: 233 KTVSREQVLLAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKRARVPENE 292
           K VS++++LL  ++L   SI+VG++I SEI  C  +K G LFFP+ IT LC+ A    NE
Sbjct: 122 KIVSKDRMLLLHSMLNGKSINVGRMIHSEIRACAAQKTGALFFPSLITRLCRNAPFLVNE 181

Query: 293 GDVILFDKGIIDTSNLAQL------QRTQE-----------ARQGGLVYGINTILEQLAL 352
               L + G ID   +A++      + TQ+           +R  G V      LEQ   
Sbjct: 182 EK--LHNTGEIDAIAVARITQEGPTESTQQPSSSRPAAASSSRTNGDVLQQLKALEQ--- 241

Query: 353 SASRQEFAERQALTFWNYVKRRDANLKKALQENFSKPL 374
             S+QE   +Q   FW Y K RD  LKKALQ NF++P+
Sbjct: 242 RLSQQEHTHKQQQQFWAYSKERDTALKKALQNNFTRPI 274

[Close]
BLAST of Spg034563 vs. NCBI nr
Match: PON59596.1 (hypothetical protein PanWU01x14_158080 [Parasponia andersonii])

HSP 1 Score: 80.5 bits (197), Expect = 5.2e-11
Identity = 68/219 (31.05%), Postives = 105/219 (47.95%), Query Frame = 0 

Query: 183 EEAEKKAEEE-RLRKQRADRGKSVAAASEEPDEIEEPQLPYCANFMQILTKKTVSREQVL 242
           E AE + EE  + R   A++G    AA      ++   LP           KTVS++++L
Sbjct: 19  EAAETRHEENIQNRPLNAEKGALTPAAKVWYHFLKSRLLPTTHG-------KTVSKDRML 78

Query: 243 LAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKRARVPENEGDVILFDKG 302
           L +++L   SI+VG++I SEI  C  +K G LFFP+ IT LC+ AR P    +  L   G
Sbjct: 79  LLYSMLTGKSINVGRMIHSEIRACAARKSGALFFPSLITQLCRNARAPFLVNEEKLHITG 138

Query: 303 IIDTSNLAQLQRTQEAR--------------------QGGLVYGINTILEQLALSASRQ- 362
            ID   +A++  TQE +                     G ++  +  + ++L+    +Q 
Sbjct: 139 EIDAIAVARI--TQEGQTELTQQPSTSRPTVASSSRANGDILQQLKALEQRLSQQEVQQY 198

Query: 363 ------EFAERQALTFWNYVKRRDANLKKALQENFSKPL 374
                 +   +Q   FW Y K RD  LKKALQ NF++P+
Sbjct: 199 HMMSLLQHTHKQQQQFWAYSKERDTALKKALQNNFTRPI 228

[Close]
BLAST of Spg034563 vs. ExPASy TrEMBL
Match: A0A2P5BCG4 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_251180 PE=4 SV=1)

HSP 1 Score: 89.0 bits (219), Expect = 7.1e-14
Identity = 56/166 (33.73%), Postives = 87/166 (52.41%), Query Frame = 0 

Query: 233 KTVSREQVLLAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKRARVPENE 292
           KTVS++++LL  ++L   SI+VG++I SEI  C  +K G LFFP+ IT LC+ AR P   
Sbjct: 192 KTVSKDRMLLLHSMLIGKSINVGRMIHSEIRACAARKTGALFFPSLITRLCRNARAPFLV 251

Query: 293 GDVILFDKGIID---TSNLAQLQRTQEARQ---------------GGLVYGINTILEQLA 352
            +  L + G ID    + +AQ   T+  +Q               G ++  +  + ++L+
Sbjct: 252 NEEKLHNTGEIDAIAVARIAQEGPTESTQQPSSSRPATASSNRTNGDILQQLKALEQRLS 311

Query: 353 LSASRQ-------EFAERQALTFWNYVKRRDANLKKALQENFSKPL 374
               +Q       +   +Q   FW Y K RD  LKKALQ NF++P+
Sbjct: 312 QQEVQQYHMMSLLQHTHKQQQQFWAYSKERDTALKKALQNNFTRPM 357

[Close]
BLAST of Spg034563 vs. ExPASy TrEMBL
Match: A0A2P5DXM3 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE=4 SV=1)

HSP 1 Score: 87.8 bits (216), Expect = 1.6e-13
Identity = 60/158 (37.97%), Postives = 84/158 (53.16%), Query Frame = 0 

Query: 233 KTVSREQVLLAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKRARVPENE 292
           K VS++++LL  ++L   SI+VG++I SEI  C  +K G LFFP+ IT LC+ A    NE
Sbjct: 122 KIVSKDRMLLLHSMLNGKSINVGRMIHSEIRACAAQKTGALFFPSLITRLCRNAPFLVNE 181

Query: 293 GDVILFDKGIIDTSNLAQL------QRTQE-----------ARQGGLVYGINTILEQLAL 352
               L + G ID   +A++      + TQ+           +R  G V      LEQ   
Sbjct: 182 EK--LHNTGEIDAIAVARITQEGPTESTQQPSSSRPAAASSSRTNGDVLQQLKALEQ--- 241

Query: 353 SASRQEFAERQALTFWNYVKRRDANLKKALQENFSKPL 374
             S+QE   +Q   FW Y K RD  LKKALQ NF++P+
Sbjct: 242 RLSQQEHTHKQQQQFWAYSKERDTALKKALQNNFTRPI 274

[Close]
BLAST of Spg034563 vs. ExPASy TrEMBL
Match: A0A2P5CEY2 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_158080 PE=4 SV=1)

HSP 1 Score: 80.5 bits (197), Expect = 2.5e-11
Identity = 68/219 (31.05%), Postives = 105/219 (47.95%), Query Frame = 0 

Query: 183 EEAEKKAEEE-RLRKQRADRGKSVAAASEEPDEIEEPQLPYCANFMQILTKKTVSREQVL 242
           E AE + EE  + R   A++G    AA      ++   LP           KTVS++++L
Sbjct: 19  EAAETRHEENIQNRPLNAEKGALTPAAKVWYHFLKSRLLPTTHG-------KTVSKDRML 78

Query: 243 LAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKRARVPENEGDVILFDKG 302
           L +++L   SI+VG++I SEI  C  +K G LFFP+ IT LC+ AR P    +  L   G
Sbjct: 79  LLYSMLTGKSINVGRMIHSEIRACAARKSGALFFPSLITQLCRNARAPFLVNEEKLHITG 138

Query: 303 IIDTSNLAQLQRTQEAR--------------------QGGLVYGINTILEQLALSASRQ- 362
            ID   +A++  TQE +                     G ++  +  + ++L+    +Q 
Sbjct: 139 EIDAIAVARI--TQEGQTELTQQPSTSRPTVASSSRANGDILQQLKALEQRLSQQEVQQY 198

Query: 363 ------EFAERQALTFWNYVKRRDANLKKALQENFSKPL 374
                 +   +Q   FW Y K RD  LKKALQ NF++P+
Sbjct: 199 HMMSLLQHTHKQQQQFWAYSKERDTALKKALQNNFTRPI 228

The following BLAST results are available for this feature:
BLAST of Spg034563 vs. NCBI nr
Match NameE-valueIdentityDescription
PON46472.11.5e-1333.73hypothetical protein PanWU01x14_251180, partial [Parasponia andersonii][more]
PON78020.13.3e-1337.97hypothetical protein PanWU01x14_023740 [Parasponia andersonii][more]
PON59596.15.2e-1131.05hypothetical protein PanWU01x14_158080 [Parasponia andersonii][more]
BLAST of Spg034563 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Spg034563 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A2P5BCG47.1e-1433.73Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1... [more]
A0A2P5DXM31.6e-1337.97Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE... [more]
A0A2P5CEY22.5e-1131.05Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_158080 PE... [more]
BLAST of Spg034563 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 160..202
NoneNo IPR availableCOILSCoilCoilcoord: 84..104
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 82..123
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 25..67
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..214
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..17
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 162..210

Relationships

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

Feature NameUnique NameType
Spg034563.1Spg034563.1mRNA