CmaCh12G008200 (gene) Cucurbita maxima (Rimu) v1.1

Overview
NameCmaCh12G008200
Typegene
OrganismCucurbita maxima (Cucurbita maxima (Rimu) v1.1)
DescriptionSulfotransferase
LocationCma_Chr12: 6007404 .. 6012859 (-)
RNA-Seq ExpressionCmaCh12G008200
SyntenyCmaCh12G008200
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

AAGGCTTTAAGCTTTACTGATGAAATCATTCCAAATTCTCTGAATCAGACGTTGAAAAGGGAAGGTGTTGAATTGTTGGGCAGAGGGATTAATCCTCCCCCTTTGTTTCCGGCGGAGGAGGAGGGGCCGGAGATAATCTAGCCGTTGTTTTTCTTCTCCATTCAACGCGAAGCAAGAAATTTTTATTCCTTTTCTCTGTCTTTTCTCCCCTATTTGACGCTGTTTCTGCTTGGATTGCTGGGAAAAATCGAGACGAAAAAGTGGCTGGAAGTTTCTGAAGGTTGGATTAGGGTGGGGCCTCATTGATCGCGAGGCCTGTTCTCGGTATCCCAACGCTATCTCGGGAATTTACGAGCACGAGATCTCTAAAATCGATACTCTGGTTGAAGGAGTGAGATGCATGGATTCTACAATTAAGTTAACATTGCTTCTGATATTCTTCAGAATAGCATGTGCTTCAACTGTTGAGAAAAATTTTGAACAGTGTGAAAGGGCTGTCAAAAACTGGGCCTTATCTTCTCTCCAGCAAGGTATCAATGAAGATCAACATACTCTAAAAGATTTACTGTTTTTTCTCCATGTTCCGAGAACAGGAGGGCGATCATACCACCATTGTTTCTTGAATAAGTTGTACCCAACCTCTCAGGAGTGTCCCCGTTCTTACGATAAGCTACGTTTTGATCCCAGCAAGGCCAAGTGCAGATTGCTAGCTACTCATGATGATTATAGTATCATGGAAAAACTACCCACAGAGAAAACTTCGGTGGTGACAATTGTTAGGGATCCAGTTGACCGGGTTCTTAGTTCATATGAATTTGCTGTTGAGGTTGCAGCTAGATTTTTGGTACATCCTGACCTAGCTTCTGTGGCTAAAATTTCCGAAAAAATGCTTAAAAAGGCAAATGGAGTGAGCACATTGGATATCTGGCCGTGGAAGTATTTGGTTCCATGGATAATGGGAGACCTATTTGCTCGAAGAGACACAAGAAGACGGAAGGGTTCAAGTGAAGCTAAGAGGGACAGTCCATATGACATGGAGGACATTCTTATGCCACTACATGAGTTTATTGATGAACCCATTGTTCATGATATTGTTCATAATGGGGCTACTTTCCAGATAGCGGGATTGACAAATAACTCCTACCTAGCTGAATCCCACGAGATCCGGCATTGTGTACAGGAACATAAGAGTCTTGGTCAACACGTGCTAGATGTGGCGAAGAAGAGGTTGGGTGCTATGTTATATGTTGGTCTAACTGCGGAACATAAGGAATCTGCGACTATGTTTGCAAATGTAGTTGGTGCACAGGTGATTTCACAGCTAAGAAACGCCAAAGTTAGCATGGACACTTCAGCTGCCAATCAATCAGATAATAGCAGCTCTTCACCTTTGGATTCTGAGCTTGAGAGCAATGTTGACCAGAATAATGGTACCATCAACAAAAAGACCGCTATGCAAGATGAAGGTGAAGCACGAACGGAAAATATGACTGTTGCAGAACTTATTGAAGTTTATGAAGGGTGCATTTCAAGTCTACTGAAGACCCAATCACGTCGTCGATTCGCTTCTTTAAAGGAGATTTCTCCTGCAAATTTCTCAAAAGAGGCACGGCGCCATATTTCTGATGCGGTTCTGCTGCAGATCAAAACACAAAATTTCCTGGATTTGGAGCTTTTTAAGTACGCTCAGAAAATCTTTACAATGAGACGTGTGCAACCGATGGGGAATCTTGATATGAATGATGAATCAGAAAGCAAATTCGATCAACCACGTGCCTTCAAGCTATGGAAAATTGTTTCAATACTAATGCTTTTTATCCTACTCCTTGTTTTCTTCCTATTTGCGACTGCTTGGGGAAGATCATCAAAAGTTAAGGTGAAAGGATTTACAAAGGCGACAGGAAAGAATCATCGACGGTTTGTCGAAAGTAAGAGTTTACTTGAATAATGAAAATTTATTTGTACACCCTTCAATTTATTCGATGTAAACTGGAACTAGAGATGGTATATGATGCTAATGTTATCTTAATTGGTTTAGTTTCACAGTTTTATATTGATTTCGTTTTTCGTTTTCGATGTAAACTGGAACTAAAGATGACCATTTCTCG

Coding sequence (CDS)

ATGGATTCTACAATTAAGTTAACATTGCTTCTGATATTCTTCAGAATAGCATGTGCTTCAACTGTTGAGAAAAATTTTGAACAGTGTGAAAGGGCTGTCAAAAACTGGGCCTTATCTTCTCTCCAGCAAGGTATCAATGAAGATCAACATACTCTAAAAGATTTACTGTTTTTTCTCCATGTTCCGAGAACAGGAGGGCGATCATACCACCATTGTTTCTTGAATAAGTTGTACCCAACCTCTCAGGAGTGTCCCCGTTCTTACGATAAGCTACGTTTTGATCCCAGCAAGGCCAAGTGCAGATTGCTAGCTACTCATGATGATTATAGTATCATGGAAAAACTACCCACAGAGAAAACTTCGGTGGTGACAATTGTTAGGGATCCAGTTGACCGGGTTCTTAGTTCATATGAATTTGCTGTTGAGGTTGCAGCTAGATTTTTGGTACATCCTGACCTAGCTTCTGTGGCTAAAATTTCCGAAAAAATGCTTAAAAAGGCAAATGGAGTGAGCACATTGGATATCTGGCCGTGGAAGTATTTGGTTCCATGGATAATGGGAGACCTATTTGCTCGAAGAGACACAAGAAGACGGAAGGGTTCAAGTGAAGCTAAGAGGGACAGTCCATATGACATGGAGGACATTCTTATGCCACTACATGAGTTTATTGATGAACCCATTGTTCATGATATTGTTCATAATGGGGCTACTTTCCAGATAGCGGGATTGACAAATAACTCCTACCTAGCTGAATCCCACGAGATCCGGCATTGTGTACAGGAACATAAGAGTCTTGGTCAACACGTGCTAGATGTGGCGAAGAAGAGGTTGGGTGCTATGTTATATGTTGGTCTAACTGCGGAACATAAGGAATCTGCGACTATGTTTGCAAATGTAGTTGGTGCACAGGTGATTTCACAGCTAAGAAACGCCAAAGTTAGCATGGACACTTCAGCTGCCAATCAATCAGATAATAGCAGCTCTTCACCTTTGGATTCTGAGCTTGAGAGCAATGTTGACCAGAATAATGGTACCATCAACAAAAAGACCGCTATGCAAGATGAAGGTGAAGCACGAACGGAAAATATGACTGTTGCAGAACTTATTGAAGTTTATGAAGGGTGCATTTCAAGTCTACTGAAGACCCAATCACGTCGTCGATTCGCTTCTTTAAAGGAGATTTCTCCTGCAAATTTCTCAAAAGAGGCACGGCGCCATATTTCTGATGCGGTTCTGCTGCAGATCAAAACACAAAATTTCCTGGATTTGGAGCTTTTTAAGTACGCTCAGAAAATCTTTACAATGAGACGTGTGCAACCGATGGGGAATCTTGATATGAATGATGAATCAGAAAGCAAATTCGATCAACCACGTGCCTTCAAGCTATGGAAAATTGTTTCAATACTAATGCTTTTTATCCTACTCCTTGTTTTCTTCCTATTTGCGACTGCTTGGGGAAGATCATCAAAAGTTAAGGTGAAAGGATTTACAAAGGCGACAGGAAAGAATCATCGACGGTTTGTCGAAAGTAAGAGTTTACTTGAATAA

Protein sequence

MDSTIKLTLLLIFFRIACASTVEKNFEQCERAVKNWALSSLQQGINEDQHTLKDLLFFLHVPRTGGRSYHHCFLNKLYPTSQECPRSYDKLRFDPSKAKCRLLATHDDYSIMEKLPTEKTSVVTIVRDPVDRVLSSYEFAVEVAARFLVHPDLASVAKISEKMLKKANGVSTLDIWPWKYLVPWIMGDLFARRDTRRRKGSSEAKRDSPYDMEDILMPLHEFIDEPIVHDIVHNGATFQIAGLTNNSYLAESHEIRHCVQEHKSLGQHVLDVAKKRLGAMLYVGLTAEHKESATMFANVVGAQVISQLRNAKVSMDTSAANQSDNSSSSPLDSELESNVDQNNGTINKKTAMQDEGEARTENMTVAELIEVYEGCISSLLKTQSRRRFASLKEISPANFSKEARRHISDAVLLQIKTQNFLDLELFKYAQKIFTMRRVQPMGNLDMNDESESKFDQPRAFKLWKIVSILMLFILLLVFFLFATAWGRSSKVKVKGFTKATGKNHRRFVESKSLLE
Homology
[Close]
BLAST of CmaCh12G008200 vs. ExPASy Swiss-Prot
Match: Q3EDG5 (Protein-tyrosine sulfotransferase OS=Arabidopsis thaliana OX=3702 GN=TPST PE=1 SV=3)

HSP 1 Score: 503.8 bits (1296), Expect = 2.3e-141
Identity = 271/505 (53.66%), Postives = 360/505 (71.29%), Query Frame = 0 

Query: 1   MDSTIKLTLLLIFFRIACASTVEKNFEQCERAVKNWA--LSSLQQGINEDQHTLKDLLFF 60
           M+S  KL+L L+       S  E +F  CE  VK WA   SS ++ +N+D+ +LKDLLFF
Sbjct: 3   MNSVWKLSLGLLLLSSVIGSFAELDFGHCETLVKKWADSSSSREEHVNKDKRSLKDLLFF 62

Query: 61  LHVPRTGGRSYHHCFLNKLYPTSQECPRSYDKLRFDPSKAKCRLLATHDDYSIMEKLPTE 120
           LHVPRTGGR+Y HCFL KLY +S+ECPRSYDKL F+P K KC+LLATHDDYS+M KLP E
Sbjct: 63  LHVPRTGGRTYFHCFLRKLYDSSEECPRSYDKLHFNPRKEKCKLLATHDDYSLMAKLPRE 122

Query: 121 KTSVVTIVRDPVDRVLSSYEFAVEVAARFLVHPDLASVAKISEKMLKKANGVSTLDIWPW 180
           +TSV+TIVRDP+ RVLS+YEF+VEVAARFLVHP+L S +++S + ++K+N +STLDIWPW
Sbjct: 123 RTSVMTIVRDPIARVLSTYEFSVEVAARFLVHPNLTSASRMSSR-IRKSNVISTLDIWPW 182

Query: 181 KYLVPWIMGDLFARRDTRRRKGSSEAKRDSPYDMEDILMPLHEFIDEPIVHDIVHNGATF 240
           KYLVPW+  DLFARRD R+ K     + D+PYDME++LMPLH+++D P  HDI+HNGATF
Sbjct: 183 KYLVPWMREDLFARRDARKLKEVVIIEDDNPYDMEEMLMPLHKYLDAPTAHDIIHNGATF 242

Query: 241 QIAGLTNNSYLAESHEIRHCVQEHKSLGQHVLDVAKKRLGAMLYVGLTAEHKESATMFAN 300
           QIAGLTNNS+L+E+HE+RHCVQ+ KSLG+ VL VAK+RL +MLYVGLT EH+ESA++FAN
Sbjct: 243 QIAGLTNNSHLSEAHEVRHCVQKFKSLGESVLQVAKRRLDSMLYVGLTEEHRESASLFAN 302

Query: 301 VVGAQVISQLRNAKVSMDTSAANQSDNSSSSPLDSELESNVDQNNGTINKKTAMQDEGEA 360
           VVG+QV+SQ+    V  + +A  ++  S +S   SE  S  D++N          ++ EA
Sbjct: 303 VVGSQVLSQV----VPSNATAKIKALKSEASVTISETGS--DKSNIQNGTSEVTLNKAEA 362

Query: 361 RTENMTVAELIEVYEGCISSLLKTQSRRRFASLKEISPANFSKEARRHISDAVLLQIKTQ 420
           ++ NMTV  L+EVYEGCI+ L K+Q  RR  SLK I+PANF++  R  +   V+ QIK+ 
Sbjct: 363 KSGNMTVKTLMEVYEGCITHLRKSQGTRRVNSLKRITPANFTRGTRTRVPKEVIQQIKSL 422

Query: 421 NFLDLELFKYAQKIFTMRRVQPMGNL---------DMNDESESKFDQPRAFKLWKIVSIL 480
           N LD+EL+KYA+ IF          L         D+  E +S   +    KLWK V + 
Sbjct: 423 NNLDVELYKYAKVIFAKEHELVSNKLISSSKRSIVDLPSELKSVLGEMGEEKLWKFVPVA 482

Query: 481 MLFILLLVFFLFATA-WGRSSKVKV 494
           ++ +L+++FFLF  A   R+SKVK+
Sbjct: 483 LMLLLIVLFFLFVNAKRRRTSKVKI 500

[Close]
BLAST of CmaCh12G008200 vs. TAIR 10
Match: AT1G08030.1 (tyrosylprotein sulfotransferase )

HSP 1 Score: 503.8 bits (1296), Expect = 1.6e-142
Identity = 271/505 (53.66%), Postives = 360/505 (71.29%), Query Frame = 0 

Query: 1   MDSTIKLTLLLIFFRIACASTVEKNFEQCERAVKNWA--LSSLQQGINEDQHTLKDLLFF 60
           M+S  KL+L L+       S  E +F  CE  VK WA   SS ++ +N+D+ +LKDLLFF
Sbjct: 3   MNSVWKLSLGLLLLSSVIGSFAELDFGHCETLVKKWADSSSSREEHVNKDKRSLKDLLFF 62

Query: 61  LHVPRTGGRSYHHCFLNKLYPTSQECPRSYDKLRFDPSKAKCRLLATHDDYSIMEKLPTE 120
           LHVPRTGGR+Y HCFL KLY +S+ECPRSYDKL F+P K KC+LLATHDDYS+M KLP E
Sbjct: 63  LHVPRTGGRTYFHCFLRKLYDSSEECPRSYDKLHFNPRKEKCKLLATHDDYSLMAKLPRE 122

Query: 121 KTSVVTIVRDPVDRVLSSYEFAVEVAARFLVHPDLASVAKISEKMLKKANGVSTLDIWPW 180
           +TSV+TIVRDP+ RVLS+YEF+VEVAARFLVHP+L S +++S + ++K+N +STLDIWPW
Sbjct: 123 RTSVMTIVRDPIARVLSTYEFSVEVAARFLVHPNLTSASRMSSR-IRKSNVISTLDIWPW 182

Query: 181 KYLVPWIMGDLFARRDTRRRKGSSEAKRDSPYDMEDILMPLHEFIDEPIVHDIVHNGATF 240
           KYLVPW+  DLFARRD R+ K     + D+PYDME++LMPLH+++D P  HDI+HNGATF
Sbjct: 183 KYLVPWMREDLFARRDARKLKEVVIIEDDNPYDMEEMLMPLHKYLDAPTAHDIIHNGATF 242

Query: 241 QIAGLTNNSYLAESHEIRHCVQEHKSLGQHVLDVAKKRLGAMLYVGLTAEHKESATMFAN 300
           QIAGLTNNS+L+E+HE+RHCVQ+ KSLG+ VL VAK+RL +MLYVGLT EH+ESA++FAN
Sbjct: 243 QIAGLTNNSHLSEAHEVRHCVQKFKSLGESVLQVAKRRLDSMLYVGLTEEHRESASLFAN 302

Query: 301 VVGAQVISQLRNAKVSMDTSAANQSDNSSSSPLDSELESNVDQNNGTINKKTAMQDEGEA 360
           VVG+QV+SQ+    V  + +A  ++  S +S   SE  S  D++N          ++ EA
Sbjct: 303 VVGSQVLSQV----VPSNATAKIKALKSEASVTISETGS--DKSNIQNGTSEVTLNKAEA 362

Query: 361 RTENMTVAELIEVYEGCISSLLKTQSRRRFASLKEISPANFSKEARRHISDAVLLQIKTQ 420
           ++ NMTV  L+EVYEGCI+ L K+Q  RR  SLK I+PANF++  R  +   V+ QIK+ 
Sbjct: 363 KSGNMTVKTLMEVYEGCITHLRKSQGTRRVNSLKRITPANFTRGTRTRVPKEVIQQIKSL 422

Query: 421 NFLDLELFKYAQKIFTMRRVQPMGNL---------DMNDESESKFDQPRAFKLWKIVSIL 480
           N LD+EL+KYA+ IF          L         D+  E +S   +    KLWK V + 
Sbjct: 423 NNLDVELYKYAKVIFAKEHELVSNKLISSSKRSIVDLPSELKSVLGEMGEEKLWKFVPVA 482

Query: 481 MLFILLLVFFLFATA-WGRSSKVKV 494
           ++ +L+++FFLF  A   R+SKVK+
Sbjct: 483 LMLLLIVLFFLFVNAKRRRTSKVKI 500

The following BLAST results are available for this feature:
BLAST of CmaCh12G008200 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q3EDG52.3e-14153.66Protein-tyrosine sulfotransferase OS=Arabidopsis thaliana OX=3702 GN=TPST PE=1 S... [more]
BLAST of CmaCh12G008200 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G08030.11.6e-14253.66tyrosylprotein sulfotransferase [more]
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR005331SulfotransferasePFAMPF03567Sulfotransfer_2coord: 54..142
e-value: 3.7E-5
score: 23.8
IPR027417P-loop containing nucleoside triphosphate hydrolaseGENE3D3.40.50.300coord: 51..350
e-value: 2.1E-20
score: 75.1
IPR027417P-loop containing nucleoside triphosphate hydrolaseSUPERFAMILY52540P-loop containing nucleoside triphosphate hydrolasescoord: 49..159
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 316..350
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 316..359
NoneNo IPR availablePANTHERPTHR12812:SF10BNAANNG15430D PROTEINcoord: 8..493
IPR010635Heparan sulphate 6-sulfotransferase/Protein-tyrosine sulfotransferasePANTHERPTHR12812HEPARAN SULFATE 6-O-SULFOTRANSFERASE 3coord: 8..493

Relationships

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

Feature NameUnique NameType
CmaCh12G008200.1CmaCh12G008200.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0055070 copper ion homeostasis
biological_process GO:0045087 innate immune response
biological_process GO:0010366 negative regulation of ethylene biosynthetic process
biological_process GO:0010468 regulation of gene expression
biological_process GO:0010082 regulation of root meristem growth
biological_process GO:0009733 response to auxin
biological_process GO:0019827 stem cell population maintenance
cellular_component GO:0005794 Golgi apparatus
cellular_component GO:0016021 integral component of membrane
molecular_function GO:0008476 protein-tyrosine sulfotransferase activity
molecular_function GO:0008146 sulfotransferase activity