Spg015565 (gene) Sponge gourd (cylindrica) v1

Overview


Name	Spg015565
Type	gene
Organism	Luffa cylindrica (Sponge gourd (cylindrica) v1)
Description	Reverse transcriptase domain-containing protein
Location	scaffold10: 14797292 .. 14804871 (-)
RNA-Seq Expression	Spg015565
Synteny	Spg015565

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

ATGCGAGCTGGGGTATCCTATGCAATGAGTTTGCATAAGACCGGACCACGAAATAGTCAACCATTAGTTATAACACCGTGAACTAGTTAGGTTACTGTTTCAATAGGATGACCTAGGTAACTCAGTCTTAATCCTGAGTGTGTCATGAACTCCTTCTCATGAGTGATTGTCCTTTGATTAGCATGGGTGAGAGTGGCCAATACGCCGACTCAATATGCCTTCCTTTTTGGGGACAAGACCGAGTGGGAGGCTGGGGACATGACAACACAAGAAGGAATTCACTCCTTCCCGCTTCTAGGAGAAGTAGATGAGTGTTCCCTTAAGTGGTGACTCCGGGACTTGAACAAAGGGATCCCGCCCTCTCACTGGCCCGAGAGGGACTTTCTGTTTAATAGTTGGACCATAAACAGGTTGTTCATTAGAGGAGCGCTGGTACTTAAGGAGACAGATGTAACACAGGGGTAAAACGGTAATTAGACCCAGCTGTGATTACGGACACTCGTGAAGGATTGACTTACCGGCATAGGTCTACATCCATGGACACAGAAATGTTCTACAGAGAGAAGAGTTCAGCTGTGGGTCTTTAGTGGAATGACCCACAGTTAATGAATATTGGTTAACTTGATTAATGAGTTTAATCAGTTAACCTCATATCATTGGAGCTTCTGATTTGTAGGTCCATTAGGTCCCCCTGCTAGCTCGTAAAGAGTAATTAGGAACAAATATATCTTGAGAGACTTTGAATAGTTCAAATTTATATTGGGAATTAAATTAATGTATAATGATACATTAAAATGTAAAGTCTAATTTGAAATTAAACTTTATTATTATGAGAGAAATAAATATTTGAAGAATTTCAAATATTAATATGAATTTGATTCTTATTAAATTTATAGGATATAAGAGAATTGGAAGGAGTTCCAATTTTAATATGAATTTGATTCATATTATAGAATTAATTAATTGAAGGCCCAAAGTTAAATATATGATATTTAATTGGGTAATTAATTAATTAACTAATAGAAGGTCTGAAATTAAATATATGATATTTAATTGGTGATTAATTAATTTAAAGAATTAATTAATTGGAAATTAATCAATTATGGAAATGATTAATCACTTATGGAAGTAATTAATCATTTATGGAAATGATTTAATCACTTATGGAAGTGATCAATCATTTATGGAAAAGATTAATCAATTATGGAATTGATTGGTTATGGAATTGATTAATTATGGAAAATATTAAATCAGTTATGGAAATAATTGATTTTAAATGAATATTTTATTCATGGAATTTCTCCTATAAATAGAACACTAACCCTAGGGTTTAGGGATTACAACATATGGCCACCATAAGGCCCTCTCATATTCTCTCAACTCAAGAACTCTAGGGAGAATTTTCTCTCTAGAGTTTTTCCCATTCAAGATTAGGTAGTCCCACAACTATGTTCCTAATCTCAGAGTTATAGCGGGGAAGATCAAATGGTGGTGTTCTTCGTTGTTGCAGAGCAATCAAGAATCATTCTTGAAGTATTCAGAGTCGTCAACGGAGGTATGTTTTTCACCGCTTAACCTTTTGCCAATGTATTGGTATTTTGTAGAACAAAATTAATTTACGAACGGTCCAATTGCTTCTGCTGTAACAGAATTGGGAATTCCAATCCTTTCATAAACGATGTTATAAAGAGAAGTGACTTATTTCTCGGTCTTGGTCTCATGCAAACTCATTGCATAGAACGCCCCCACTCGCATGTCTCTTACATGAACGATTCAGGATCACATTGTTTGCACTAACTACAAAGTCGGTCGCATCACATAGTGTCCCCAGGATAAGATACTGAGCCTTATCCCTATACTATAGACCATTTAGGCCATTACTCGAGCCTGATCCATTTTTATGTCTTCACATAAAGCTTAGTGTTCAAATCATATAACCATGGATCTTAGTTTATTGGATTTGGGTTTATTTAACGTGCAATGCACTTATTTAATAACTTAAGTGAACAAACCCTCGATAATGACTTTATCGAACAAGCATATTACTATTTGTTACATTCACTATCTACGAGTTTTAGGGCACCAACTCCAACAAAATCAACAGAAACAAAGTAGCTTTTCTGGTACTATATGTGGATGACATCCTACTCATTGGGAATGATGTAGGGTACCTGACTGACGTCAAGAACTGGCTAGCGGCCCAATTTAAAATGAAAGATTTGGGAGAGGCTCAATATGTTATTGGGATCCAAATCATTAGGGATCGTAAGAACAAAACGCTAGCGCTGTCTCAAGCAACGTATCTCGACAAGTGTCGTCTCGATATTCGATTCAGAACTCCAAGAAGAATTTACTTCCTTTCAGGCATGGGGTTCACCTGTCTAAGGAACAATGTCCTAAGATACCTCAAGAAGTGAGGACATGAGACGCATTCCCTACGCCTCAGCTGTGGGCATGATAACACCCAAAATGTGCTATCTTAGTACTTCCAATTCGATCTTGTTAGTGTGCATTTGATGGTTTAAGTGTTTAGTTTACAGGGATTCGAGCACAAGAGGACAATTAGGCCTATATTTCATTTCGGTGCTAACTCGGGATTTTTAAGGTGTTTTCGAGCTATTTCGGAGTTCTCGAGATGACGTGAAGCCAAAGACATCGATCGGAACGCTTGGACATCATTTTTGGAGCCAAAAGGATCAAACAAGATAATGAACATTGATTAGCTTGGTTAATGAGTTTAGCCAGTTAATCTCATATCGTTGGAGCTTCTGATATGTAGGTCCATCAAGTTCCACCGGTAGCTCATTAAGGGTATTGAGGTAAATTTTCTAAGGAAAATAATATAATGTATGGAGATACATTATAATATAAAGTTTATATTTTCATTAAACTTTATAATATAAATTTATTCTGAATAATTGATTCAAAATTAATTTATGGGAGAATTAAATATTTGAAGGAGTTATATTAAATTTAATATGAATTGGATTCATATTAAAACTATAAGTTAAAATTAATGCGCATTAGATGCACATTAATACTCTAGGTTATATGAGAGAAGTATAATTGAATGTGATTCAATTATTGGCTTAATTAAATATATGATATTTAATTTGATAATTAATTAATTAATTGTTTTAATTCAATCAGTTTTAATTCAATTTAATTAAATTGATTGAATTAAAACTATAGGTTATGTGGAGAATATTCATTTGAATATGATTTGAATGAAAAATGATTAATTAAATATTGATTTAATTAATTAATTAATTGTTTTTTAATTAATTAAGTAAAAATAAATTTAATTTATTTTAATTTAAATGATCAGTGGTTTAATTGAACTTAATACGTGCCTTTCATATGTATTCTCCATCCTTAACCGTAGGCCTTACGACGTGGGTGGTCTCCTAAGACCTCTCCTCTTTAGGCGTAGAGTGGGGTGATCTAAGATAATTCATTTAGTCTCTCAAGATCTCTCTCTCTCAAGTTGTTCCTCTCTCAAAAGAATTCTCCCAGAAAGTTTTTTCCTGCAAAAGCAAAAGGCTCCACAAGCCTCCTCCTTACAAACCTCTTTGAGAATACCAATGATTGCCTTGTGGTGGTGTTTCTTGGAGATTTCCAGCCAAGAACAAGATTTTGAGCGGTTGTCTTTTCACAAAGAAAATCCAAGGAGTTGGTGTTTTTACGGTCAAGTTGACAACGTAGGTAAAGTCTTATTGATCCATAGTTTTCTGTAGAAAAGCATGAATTAAAAATAGGTTTTAAATTCTGAATTTCAGCATGTATTATAGCCTAGTTTTACAACAATTTATTATGAATGATGTTGTTTATTCGTTACCGTCGTAGAGGTATTTTGGTTTAAAATCCATTGTTCGAGTATGACACGAGAGGGACTTTACCAGCTGCTGGTATTTTTTTTTTCAGAAGAAAAAGATGATGAGAAGAGGGAAGATGAAAAGGAGGACAATAACTTTAGTGATGAGACAAATTTAGATTCTGAGGTGTGCGCAAATTGCTTACCGCAACTGTATAGTGTTTTAAAAGCGAATGTCGTCCTCTGGATTGTTTTTCTAACTAGATTAATTACTGTGAATAATTTTGCCCAATTTTATTTAGAGATAAAGACTTAGTGATGCAAAGAAATCAAATGACAAGAATTAAAAAGGTTGGGAATTCAATTGGAGGGAAAACTCTTAGGGGTTGTTTGGGGCACTGAGTTGGTTATGATAGCTGGGGGGTTATAATAGTCTGGGGATTATAATAGTCTGGGTGTTATAATAGTCTGTGTTTGGGGTGCAGATTATTATAGTCTGGGATAAAATAGTCTGTGTTTGGGATGCAGATTATTTTAGTCTATGTTTCAAGCTAACTGTTTTTTTTTCCCGACTTTTTTTTTGTTTATTTTCCTCATACAACTTTGTACTTCAACTATTAATAAAAAAAAATTGGGTTTAGTTGTAAAAAAAATATAGTTTTGGGTACAGGGGTTAAATTATGTGTTTAACTTCACAAAAATAACCTAAAGTAAGGGTTCTTTTTCTTTGTTTTAGAGTAATGGTTTTTTCATAAAATAAGTCATTTTATGATTTCATATAGAAAAACCATATTTGTTTCATTTCTGTATTTCCAACATAAAAATGGTAAATGCTTATTCAAAACCCATTTTACTTTCATTATCAAAAGAATCAAATAAAATAGATATCACATAAAATAAAAACTTGAGTAGTATTTTTTTTAAAATTATTATTATCACGGTAAACTTAAATACGATAAGTATAATTTGGAATGAAAAATATGTTACGATGAAGGTAAACATTCATATACTTCATTATCAAAAGTAATTATGTAATAAAACTTGATTGCTGTTGTCAGAGTGTTAAACAATTCAATATAATACTGTCGTAGATTTTAATCAATCCAAGTATAAACTGACAAAATCAAGTAATACCTGGTGAGTCCAGGGTCGAATCCACAGGGAAGGTTATTTGCAAAGTCTTTAACAATATTTACTGACCTAAACTAAAAACGTGTGATATTATATAAAAGTATAAATGATAGAGTGGGTAAAAATAAAACTTGCAAAAAAAAGTTAACATGCGACCAGAGTGAAAGGAAAAGTATAAAGGAGAATAGTATCAAGGATGTTGCGGTTGCAACCTCATGCGTTTATAAGAACCTTGTAGCGCATACTTTAAGTAATTGATTCATTAATGCCTAAGTGAGAAAACAACACAAGTTTCCCTTCCGGTACTGCTTCTGCGTTTGGCATAAAACTATCAATTGGTTACTTGGCTAGTTCATGCGTGAGGCTTGGTTCTCTAAAACTTACAAGGGATTGCGTCAGTCACAACGCAATCGAAGCTCATCCATGCACTATCTTTTAGTGGTAGTATTTCCATGCTACCAAGACTACATGTCGTGCGCTAACTTGTTTTACTTAGAAATGTCCGCATGCATTACCTGTCAGGGATTTAGCATACTGCTACCGCATCCGGCTGGCCAAGTGGGAGTTAGTAATGAAAAGATTATCGCAACTAAGTAGAAGACAATTAATTTTTCATCTAAATCAAAATATGCGCTTACAAAATATACTTATCACCGCACGAGGTGCTTGCGCTAAGCCTTGAAGAAGAATTTAGCTCATGCGAGCAAAACATGACATTATGAAATAAAACATTACAAGCACAAGTTTGCTCCTAATCACAGCTTTTTGTGATTTCCCCGTTGTCTTCCTTCTTCTCTCCTTCGAGCCAAGAAATGAATGAAATTCAATCTTCTATCTTTGAGTGTGTGGCTTCTATTTATAGGCGAGGGAAGATGACTTCTCCAAGTAATTAACAATTTGTGTTAATCATCATTTGTCAACTTGCTCAACTTTTCTCCCCTTTTTCCGCCCACTTGTGTTAGTTGTTTTAGTTGTGTCAACGCTGTCTTTTCATCATCTTATCTGTCTCTTGATCGTCTAGGGATGTGGTGCCTGCGCTGAGAAGAAACTTTGGAAAACAACTGAATTAGTTGCGTTAGTGCCCTATATTTTATAATTTCTCACCGCATTCATGAATATAGCTCGCCGCATAAAACTATCACATTTTTCTTTCTTTTTGCACTGAAGCAGCGCATCTTTGTTTCTTTTGGCCTTGTTTTTAGCTTAAGTTTAAAGGATAAATAACTTACTTTTTGCAAGTTATCAAAACTCCATATTTATATATGTACAAAGACAACCTAGTATCTAACTCCCTAGAAATTTTTCGATTTTTCCGACGACCACCTACAAAATTTTCGGCGACTGAAAATTTGTTCCCTTTTTTTCCTTCATTTCTTCTACCTCTTTTCTTTTTTTTCCTTTATTTTTTATTTTTTTATATTTTTCGAAATGAAAATGAGAAGAAAGATTTAAAAAAAAAAAAAAAAAGTCGCTGGAAAAGTCGCCGGTGATCGTTGGAAAAGTGACCGGTGATCGCCGAAAAAGTCGTCGGCCGGTTGTCGATAGGAAAATCAATGAGTCACATGGAAGAAGAGAGAAGAGAGTTACTGTAGAGAATTGATAGAATAATTGGGTGGGTTGAATAGTGGTTACTGTAGCAACACGGAGGGGAAAAATAACCAACTTCACTTATTATTTTTGTTGATGCCCCAAACACTGGGGTGGTTATAATAGCCCCCACTATTATAACCAACATAGTGGGCCAAACTTGGGAATTGACTTCACCTATTGAGGATATAAATTAATTACTTGGATGATTTATCATGCTAGGATTCATAAATCTAGGATAAACAAGATTCATATTTATCTCTCCCGAGCATAAATAATTCTCTAACATGCAATGAATTCAATATCCCTATCTAAACTCATTAACATGCAAGACCTTAAGTCTAATCCTTTTAACGATTTTTAAGACTATCTTAAATCTCCTAATCGCCTATCCTAGTTTCGCATAACAAGATCTAAGCTAAACCCCCTCTCCGGAGCAAGATTTAGACAAAACATCATTCAACTCATGGCCAATAAATTGAAAGCATTAAGAGAATGCTATGCATAAATGAAATCAAAGCATACATGGTGCCTCTAATTCATGAATTTTATGCAGGAATGAGGGAAGAGAGCCTAAGCTTCTCAGTGGTGAGAGGGAAGATGGTTAGTTTCTCTTCGGTGGATATAACAGAGTGTATCGTGTCAAAGCACCTTTGAACAACAAGGGCAATGATGCAATCAAGAACCCCACAACCAAACACAACTAAAGGAAACACTAAAAATGGTGGTCAGGAAAGGAGTGCAATGGAAAGAGTTGTAGACGAAGGTGAAATCCTTGGTGCCAAGTGATCTAAAGCCTGAACCAGTAGTGTGGCTCCACGTCATCAAGAATTGTCTTATGCCGACCACCCATGACAACACAATTTCTGTGGAGAGGGTAATGCTTGTCTACAACATTATGAAGGGGATGGAGCTGAACATTGACAACATCATCCATGAAGAGATTCTCTCGTGCGGGAGAAAGAAAGTCGGGAAGCTATTCTTTGGGTCGTTGATTACCCAGCTGTGCCAAAGAGAAAAGATCTCTCCAAGGAAGGATGAGGAGTGA

mRNA sequence

ATGCGAGCTGGGGTATCCTATGCAATGACATGGGTGAGAGTGGCCAATACGCCGACTCAATATGCCTTCCTTTTTGGGGACAAGACCGAGTGGGAGGCTGGGGACATGACAACACAAGAAGGAATTCACTCCTTCCCGCTTCTAGGAGAAGTAGATGAGTACCCAGCTGTGATTACGGACACTCGTGAAGGATTGACTTACCGGCATAGGTCTACATCCATGGACACAGAAATGTTCTACAGAGAGAAGAGTTCAGCTAGTTATAGCGGGGAAGATCAAATGGTGGTGTTCTTCGTTGTTGCAGAGCAATCAAGAATCATTCTTGAAGTATTCAGAGTCGTCAACGGAGGTCCATCAAGTTCCACCGGTAGCTCATTAAGGGTATTGAGCCAAGAACAAGATTTTGAGCGGTTGTCTTTTCACAAAGAAAATCCAAGGAGTTGGTGTTTTTACGGTCAAGTTGACAACGTAGAAGAAAAAGATGATGAGAAGAGGGAAGATGAAAAGGAGGACAATAACTTTAGTGATGAGACAAATTTAGATTCTGAGGGTCGAATCCACAGGGAAGGAATGAGGGAAGAGAGCCTAAGCTTCTCAGTGGTGAGAGGGAAGATGACGAAGGTGAAATCCTTGGTGCCAAGTGATCTAAAGCCTGAACCAGTAGTGTGGCTCCACGTCATCAAGAATTGTCTTATGCCGACCACCCATGACAACACAATTTCTGTGGAGAGGGTAATGCTTGTCTACAACATTATGAAGGGGATGGAGCTGAACATTGACAACATCATCCATGAAGAGATTCTCTCGTGCGGGAGAAAGAAAGTCGGGAAGCTATTCTTTGGGTCGTTGATTACCCAGCTGTGCCAAAGAGAAAAGATCTCTCCAAGGAAGGATGAGGAGTGA

Coding sequence (CDS)

ATGCGAGCTGGGGTATCCTATGCAATGACATGGGTGAGAGTGGCCAATACGCCGACTCAATATGCCTTCCTTTTTGGGGACAAGACCGAGTGGGAGGCTGGGGACATGACAACACAAGAAGGAATTCACTCCTTCCCGCTTCTAGGAGAAGTAGATGAGTACCCAGCTGTGATTACGGACACTCGTGAAGGATTGACTTACCGGCATAGGTCTACATCCATGGACACAGAAATGTTCTACAGAGAGAAGAGTTCAGCTAGTTATAGCGGGGAAGATCAAATGGTGGTGTTCTTCGTTGTTGCAGAGCAATCAAGAATCATTCTTGAAGTATTCAGAGTCGTCAACGGAGGTCCATCAAGTTCCACCGGTAGCTCATTAAGGGTATTGAGCCAAGAACAAGATTTTGAGCGGTTGTCTTTTCACAAAGAAAATCCAAGGAGTTGGTGTTTTTACGGTCAAGTTGACAACGTAGAAGAAAAAGATGATGAGAAGAGGGAAGATGAAAAGGAGGACAATAACTTTAGTGATGAGACAAATTTAGATTCTGAGGGTCGAATCCACAGGGAAGGAATGAGGGAAGAGAGCCTAAGCTTCTCAGTGGTGAGAGGGAAGATGACGAAGGTGAAATCCTTGGTGCCAAGTGATCTAAAGCCTGAACCAGTAGTGTGGCTCCACGTCATCAAGAATTGTCTTATGCCGACCACCCATGACAACACAATTTCTGTGGAGAGGGTAATGCTTGTCTACAACATTATGAAGGGGATGGAGCTGAACATTGACAACATCATCCATGAAGAGATTCTCTCGTGCGGGAGAAAGAAAGTCGGGAAGCTATTCTTTGGGTCGTTGATTACCCAGCTGTGCCAAAGAGAAAAGATCTCTCCAAGGAAGGATGAGGAGTGA

Protein sequence

MRAGVSYAMTWVRVANTPTQYAFLFGDKTEWEAGDMTTQEGIHSFPLLGEVDEYPAVITDTREGLTYRHRSTSMDTEMFYREKSSASYSGEDQMVVFFVVAEQSRIILEVFRVVNGGPSSSTGSSLRVLSQEQDFERLSFHKENPRSWCFYGQVDNVEEKDDEKREDEKEDNNFSDETNLDSEGRIHREGMREESLSFSVVRGKMTKVKSLVPSDLKPEPVVWLHVIKNCLMPTTHDNTISVERVMLVYNIMKGMELNIDNIIHEEILSCGRKKVGKLFFGSLITQLCQREKISPRKDEE

Homology

[Close]

BLAST of Spg015565 vs. NCBI nr
Match: PON59596.1 (hypothetical protein PanWU01x14_158080 [Parasponia andersonii])

HSP 1 Score: 82.8 bits (203), Expect = 5.5e-12
Identity = 37/85 (43.53%), Postives = 56/85 (65.88%), Query Frame = 0


Query: 216 LKPEPVVWLHVIKNCLMPTTHDNTISVERVMLVYNIMKGMELNIDNIIHEEILSCGRKKV 275
           L P   VW H +K+ L+PTTH  T+S +R++L+Y+++ G  +N+  +IH EI +C  +K 
Sbjct: 41  LTPAAKVWYHFLKSRLLPTTHGKTVSKDRMLLLYSMLTGKSINVGRMIHSEIRACAARKS 100

Query: 276 GKLFFGSLITQLCQREKISPRKDEE 301
           G LFF SLITQLC+  +     +EE
Sbjct: 101 GALFFPSLITQLCRNARAPFLVNEE 125

[Close]

BLAST of Spg015565 vs. NCBI nr
Match: PON70375.1 (hypothetical protein PanWU01x14_080440 [Parasponia andersonii])

HSP 1 Score: 82.0 bits (201), Expect = 9.4e-12
Identity = 37/87 (42.53%), Postives = 54/87 (62.07%), Query Frame = 0


Query: 214 SDLKPEPVVWLHVIKNCLMPTTHDNTISVERVMLVYNIMKGMELNIDNIIHEEILSCGRK 273
           S L P   VW H +K+ L+PTTH  T+S E V L+Y+++ G  +N+  +IH EI +C  +
Sbjct: 189 SSLNPPAKVWYHFLKSRLLPTTHGKTVSKEHVSLLYSMLTGKSINVGRMIHREICACAAR 248

Query: 274 KVGKLFFGSLITQLCQREKISPRKDEE 301
           K G LFF SLIT +C+  +     +EE
Sbjct: 249 KSGALFFPSLITSMCRNTRAPYLVNEE 275

[Close]

BLAST of Spg015565 vs. NCBI nr
Match: PON65869.1 (hypothetical protein PanWU01x14_113580, partial [Parasponia andersonii])

HSP 1 Score: 81.3 bits (199), Expect = 1.6e-11
Identity = 37/87 (42.53%), Postives = 55/87 (63.22%), Query Frame = 0


Query: 214 SDLKPEPVVWLHVIKNCLMPTTHDNTISVERVMLVYNIMKGMELNIDNIIHEEILSCGRK 273
           S L P   VW H +K+ L+PTTH   +S E V+L+Y+++ G  +N+  IIH EI +C  +
Sbjct: 6   SSLNPPAKVWYHFLKSRLLPTTHGKIVSKECVLLLYSMLTGKSINVGRIIHREICACAAR 65

Query: 274 KVGKLFFGSLITQLCQREKISPRKDEE 301
           K G LFF SLIT++C+  +     +EE
Sbjct: 66  KPGALFFPSLITRMCRNARAPYLVNEE 92

[Close]

BLAST of Spg015565 vs. NCBI nr
Match: PON62892.1 (hypothetical protein PanWU01x14_135680 [Parasponia andersonii])

HSP 1 Score: 81.3 bits (199), Expect = 1.6e-11
Identity = 36/75 (48.00%), Postives = 51/75 (68.00%), Query Frame = 0


Query: 214 SDLKPEPVVWLHVIKNCLMPTTHDNTISVERVMLVYNIMKGMELNIDNIIHEEILSCGRK 273
           S L P   VW H +K+ L+PTTH  T+S ERV+L+Y+++ G  +N+  IIH EI +   +
Sbjct: 75  SSLNPPAKVWYHFLKSRLLPTTHGKTVSKERVLLLYSMLTGKSINVGQIIHREICAYAAR 134

Query: 274 KVGKLFFGSLITQLC 289
           K G LFF SLIT++C
Sbjct: 135 KSGALFFPSLITRMC 149

[Close]

BLAST of Spg015565 vs. NCBI nr
Match: PON35554.1 (hypothetical protein PanWU01x14_335450, partial [Parasponia andersonii])

HSP 1 Score: 80.9 bits (198), Expect = 2.1e-11
Identity = 36/89 (40.45%), Postives = 58/89 (65.17%), Query Frame = 0


Query: 212 VPSDLKPEPVVWLHVIKNCLMPTTHDNTISVERVMLVYNIMKGMELNIDNIIHEEILSCG 271
           + S L P   VW H +K+ L+PTTH  T+S +R++L+++++ G  +N+  +IH EI +C 
Sbjct: 157 IRSALTPAAKVWFHFLKSHLLPTTHGKTVSKDRMLLLHSMLIGKSINVGRMIHSEIRACA 216

Query: 272 RKKVGKLFFGSLITQLCQREKISPRKDEE 301
            +K G LFF SLIT+LC+  +     +EE
Sbjct: 217 ARKTGALFFPSLITRLCRNARAPFLVNEE 245

[Close]

BLAST of Spg015565 vs. ExPASy TrEMBL
Match: A0A2P5CEY2 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_158080 PE=4 SV=1)

HSP 1 Score: 82.8 bits (203), Expect = 2.7e-12
Identity = 37/85 (43.53%), Postives = 56/85 (65.88%), Query Frame = 0


Query: 216 LKPEPVVWLHVIKNCLMPTTHDNTISVERVMLVYNIMKGMELNIDNIIHEEILSCGRKKV 275
           L P   VW H +K+ L+PTTH  T+S +R++L+Y+++ G  +N+  +IH EI +C  +K 
Sbjct: 41  LTPAAKVWYHFLKSRLLPTTHGKTVSKDRMLLLYSMLTGKSINVGRMIHSEIRACAARKS 100

Query: 276 GKLFFGSLITQLCQREKISPRKDEE 301
           G LFF SLITQLC+  +     +EE
Sbjct: 101 GALFFPSLITQLCRNARAPFLVNEE 125

[Close]

BLAST of Spg015565 vs. ExPASy TrEMBL
Match: A0A2P5DAQ2 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_080440 PE=4 SV=1)

HSP 1 Score: 82.0 bits (201), Expect = 4.6e-12
Identity = 37/87 (42.53%), Postives = 54/87 (62.07%), Query Frame = 0


Query: 214 SDLKPEPVVWLHVIKNCLMPTTHDNTISVERVMLVYNIMKGMELNIDNIIHEEILSCGRK 273
           S L P   VW H +K+ L+PTTH  T+S E V L+Y+++ G  +N+  +IH EI +C  +
Sbjct: 189 SSLNPPAKVWYHFLKSRLLPTTHGKTVSKEHVSLLYSMLTGKSINVGRMIHREICACAAR 248

Query: 274 KVGKLFFGSLITQLCQREKISPRKDEE 301
           K G LFF SLIT +C+  +     +EE
Sbjct: 249 KSGALFFPSLITSMCRNTRAPYLVNEE 275

[Close]

BLAST of Spg015565 vs. ExPASy TrEMBL
Match: A0A2P5CXU3 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_113580 PE=4 SV=1)

HSP 1 Score: 81.3 bits (199), Expect = 7.8e-12
Identity = 37/87 (42.53%), Postives = 55/87 (63.22%), Query Frame = 0


Query: 214 SDLKPEPVVWLHVIKNCLMPTTHDNTISVERVMLVYNIMKGMELNIDNIIHEEILSCGRK 273
           S L P   VW H +K+ L+PTTH   +S E V+L+Y+++ G  +N+  IIH EI +C  +
Sbjct: 6   SSLNPPAKVWYHFLKSRLLPTTHGKIVSKECVLLLYSMLTGKSINVGRIIHREICACAAR 65

Query: 274 KVGKLFFGSLITQLCQREKISPRKDEE 301
           K G LFF SLIT++C+  +     +EE
Sbjct: 66  KPGALFFPSLITRMCRNARAPYLVNEE 92

[Close]

BLAST of Spg015565 vs. ExPASy TrEMBL
Match: A0A2P5CPE8 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_135680 PE=4 SV=1)

HSP 1 Score: 81.3 bits (199), Expect = 7.8e-12
Identity = 36/75 (48.00%), Postives = 51/75 (68.00%), Query Frame = 0


Query: 214 SDLKPEPVVWLHVIKNCLMPTTHDNTISVERVMLVYNIMKGMELNIDNIIHEEILSCGRK 273
           S L P   VW H +K+ L+PTTH  T+S ERV+L+Y+++ G  +N+  IIH EI +   +
Sbjct: 75  SSLNPPAKVWYHFLKSRLLPTTHGKTVSKERVLLLYSMLTGKSINVGQIIHREICAYAAR 134

Query: 274 KVGKLFFGSLITQLC 289
           K G LFF SLIT++C
Sbjct: 135 KSGALFFPSLITRMC 149

[Close]

BLAST of Spg015565 vs. ExPASy TrEMBL
Match: A0A2P5AGA5 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_335450 PE=4 SV=1)

HSP 1 Score: 80.9 bits (198), Expect = 1.0e-11
Identity = 36/89 (40.45%), Postives = 58/89 (65.17%), Query Frame = 0


Query: 212 VPSDLKPEPVVWLHVIKNCLMPTTHDNTISVERVMLVYNIMKGMELNIDNIIHEEILSCG 271
           + S L P   VW H +K+ L+PTTH  T+S +R++L+++++ G  +N+  +IH EI +C 
Sbjct: 157 IRSALTPAAKVWFHFLKSHLLPTTHGKTVSKDRMLLLHSMLIGKSINVGRMIHSEIRACA 216

Query: 272 RKKVGKLFFGSLITQLCQREKISPRKDEE 301
            +K G LFF SLIT+LC+  +     +EE
Sbjct: 217 ARKTGALFFPSLITRLCRNARAPFLVNEE 245

The following BLAST results are available for this feature:

BLAST of Spg015565 vs. NCBI nr


Match Name	E-value	Identity	Description
PON59596.1	5.5e-12	43.53	hypothetical protein PanWU01x14_158080 [Parasponia andersonii]	[more]
PON70375.1	9.4e-12	42.53	hypothetical protein PanWU01x14_080440 [Parasponia andersonii]	[more]
PON65869.1	1.6e-11	42.53	hypothetical protein PanWU01x14_113580, partial [Parasponia andersonii]	[more]
PON62892.1	1.6e-11	48.00	hypothetical protein PanWU01x14_135680 [Parasponia andersonii]	[more]
PON35554.1	2.1e-11	40.45	hypothetical protein PanWU01x14_335450, partial [Parasponia andersonii]	[more]

BLAST of Spg015565 vs. NCBI nr


Match Name	E-value	Identity	Description

BLAST of Spg015565 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A2P5CEY2	2.7e-12	43.53	Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_158080 PE...	[more]
A0A2P5DAQ2	4.6e-12	42.53	Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_080440 PE...	[more]
A0A2P5CXU3	7.8e-12	42.53	Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1...	[more]
A0A2P5CPE8	7.8e-12	48.00	Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_135680 PE...	[more]
A0A2P5AGA5	1.0e-11	40.45	Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1...	[more]

BLAST of Spg015565 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description

InterPro

Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01

Position :

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IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
None	No IPR available	MOBIDB_LITE	mobidb-lite	disorder_prediction	coord: 159..186

Relationships

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


Feature Name	Unique Name	Type
Spg015565.1	Spg015565.1	mRNA