Chy11G198630.1 (mRNA) Cucumber (hystrix) v1

Overview
NameChy11G198630.1
TypemRNA
OrganismCucumis hystrix (Cucumber (hystrix) v1)
DescriptionHistone H4
LocationchrH11: 19023554 .. 19033246 (+)
Sequence length451
RNA-Seq ExpressionChy11G198630.1
SyntenyChy11G198630.1
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.
GCCGGTGATTTGGTGGTTAGAGTAGAACAGCGATGTGGAACTAAATCGGTTGTGAGTTTTGATTTTGATTTCGATGAAGAAATAGTAACGATTGGGTTAATTTATGGAAGTGCAAATTGGAAACTTGGTTTTCGAGTTTAGCTGAGAATTCTTTCCACCGTTGGATCTTTGAAAGATGGACGGTTCAAAAGCTCGATCCGCGTGATTCCTTTAGGGATTGTACTTTAAAAAGTGTAAATTGTTTTTTAAACTTTTTTTCATTTTTCCCGGGTAGCGGGTAATGTGAAATTCCTGAATCCGGGCAGCGGGAAATGCCCAAATGTGGTTTTTCATATTTAAAGTGTCTAAATTTAAATACAATTTTATAAGTTTAAAATAAAATTCTATATTTAATGTCAGTTTACAGTACCGGTTAAAAAATAGAACGTTTAACAAAAAAAAAATGCTTTATAAAAAGATAAAATGTAATTTTTATTTAGCAAATTAAATAGTTTGTCAAATTTTTTATTAAAAAAAAAACCTCGCGATTATGTTTTCTTTTTCTTCAATTTTTAGAATCTCTTACTCATTACTATATACCTTAATTAATTGATATATTTATATTATTTTATATTTAATTGTGAAAGTTAAAAAAAAATTAGTTCAAGAATTTAATATATATGTGATTCAAACTACAGGATACATATCAAGATTAAGTACCAATTTAGTATTGTGTCGAGTCTACTCCAATGTAATAAAGTATTTAGTTCAATTAAGCATTCAAGCATATTGTTCCTCATACAGTTGGGTTATTTATATGATTCATTGTTTAACACTATGAGTCGTGTGAATGTTGAATTTGGTTTGAAGTAAATGAACTTGAGTTGACCACTTACTCTTTTGTGAAACAAGTGGTAGTTAGTAGCACCAACCTGAAAATTAAGACTGTGTTTTCCATTTTGGGACGTCAATCTTTCAAGGTTTCCATAGGTTAAGTCTCGTCTAGAACAACTTCAAACAAATTTAACTGTATTGAATAAATATTGCAATTAGTTATCTAATTAGTTTGCAACTTTCCGTTTTATAAAAAGAAAATAGTGATGCACATTTGTATGGATGTAAGACATAAACATATACTACAAAATATGCAAACTTAGTTTAGTAAATAGAATAGTAACAGACCAAATAATTTCCCTTATGAAAAAGGGGGAAAAGCTAAGAAAAACAAGTGGTAATTAGTTAAATTAGGATTAGAATGGGACTTGTTGACTAAGCACACATGACATGTAAAATCAATCCATTTTTCATATAATTTGTTAGTTGGCTAATCAATTAGATAAAGAACATAGTATTGCAACTTCTAAAAAGTCATATGGACACTTGATGAATTTAGAAATTCATATTCATTCATTCACATTTTTAATGAATTATGTAATTGTTAAATGTTATGTATTTTCATTTATTAGAGTAATTGAAATGACATAAAATTAAATGTTGTGTCCCTCGTATAACATTTTTAATTGGTATTAAGAGGAGTTGTAGTTTCCAGATTTTAGAACAACATGACTTGAGTTTAAATGAAATTTCTCATAAAATTTTATCTCTCAAGCGTTATGTTTTTTTTTGTATTCTTGTGTTATGATACATCTTTAGAACTTTTGATCTAGTTTGATAAATTAGATTGTGGAGAGTCCGAAATTTTGAAGTTAGGAATAATTTTTTTTTTCTTGATCTTTATTGCTATATCTTTGATTATTGTTGTGGGGGTTCACCTAGAATAAAAAGAGTTCTTAAACGTAGTTCCCTTTTATCAATCTTTCTTAAACTCTCACATGCATAATAAGTTTCACGTCTTTGTTTTGTATAGTGTTGTAGCTCATGCTCATGTTAAGTATCTCATTTGAGTAACTCAAATAAATTAAAGAAGACATAAGTGAACGAAATGGTTAACAAAATTTGTAAAGTTAAATGCTTGAACAAACTTTTTGCCTATCATATATATCACATTGGAAATATTATCCTTCTTTTTATTTTTGAGGCTATATTGTATTCATTTAGTTATCAAAGCATAACTACAGTTATTGGGCTCCAAATTTCAAAGATGGCTACTTTGCCAATCCCTAAGACAAAATATTCGAGTTTAAGGTATTTGTTGACAAATATTATGATAGTAAAGATACAAGTTGCAACGACAAAGACGCTTACTCTCTGGGTGCAAGTGGTTACACATTTAATTTGTGTTCAAATATAAATGTCATTGACACGTCGCACATTTATCGATAAACTTTATAGCTCTCTCTTTATATATTTTTCAAGAACTTCACCTTGCAACTCTACACCTCAAACACAAACTTCCTAACTTCAAACGTATAATTTCTATCCGATTAGGGCAAACAGCTAGAGAAGGATAAAAGAACCACATGTAATTCTTGAGTAATGTAAGCACTCCCACACTTGAGTTCGCTAATAGCCCTAATCAACTAAATGAAACTCTACCTTCCATTAGTCTAAACTATCTGTTTCCAACAAAAGTCTCCTCATACCATTGTGGATCATGTACTTGCAGAAGTAGCATCGGTAATCAATAACAGATTTGAGTTAAGAAGCATTTGGTTTTATTTTATACTTCATAGGTCTTGCATAGATCTAGAATATTTGCAGATCTGACAATACTTATTATATCAACTTACTATCAACCTCCCCATATCTGCCAAGCCTAATGGAAAATATGATCTGCATATGATATGACATCCCAAAAGCACATAGCAAAGATCTCAATCAACCCATCCAAAGGATGTAGAAGTACAACGATGGACTGGTAAAGACGAGAATAAAAGCAAATACAACGTCATGAGACTACAACAGAGAACATCAGTGGTGGTCCAGAAAAAGAATTTGTTCGTGAAGCAGCAAGCGTCAAAATGGGGCTTCCTCAAGGAAGAGCTTAACCGACATTCTTTTGCTCGCTTTAAATCGTTGGACCAACGGCCGTATATTCAAGAACTTAACCTAGTTGAGATCAAACGCTCATTAACAAATGATATTATGATAGTCGATCAAGAAGTTGAGATCACATATCAGTATGCATATCTTTTGTTTCTCGAGGGAAGTGCCCCTCTAAATCCACATAAATGGAGGATAGCAAGCAAGTAGCAAAGCTTGAAAACCTCAATGATAAATAGACTTTCTAAGCATTAGCAATGCTCTAGCACATCAACTTACAGCAAGAAACACCAACAAGGCATTTTTGAGAATATGCACCGACTACACAAAGATCAACTTCAAGAGTCGTACCTGAGAACCCAATCTAGGAAAAGCATGAAGATGGATTCGCATAGGCTGTAAAAGACCCCGAACTACTGCACAAATTGAAAATGCATACGCTGCTCTTCAACATACAGCACCAGTTAAGTAGAAGATGGATTGGCATCATTTAGACAAAAGTTGCAGCTGTAGCCAGTGAATACAACAGATTACTTAAACTCATGAAGATGCAATGTTAAAACGCATCGTAAGGATTGTCAATCTGCAAACCCTTAACAAAACTACCATCTGATACAAGTGAACTGCTTTGAATCTAGGATGCAGTACCAAAATAATGATAGGGAAGTAACGCCATTATGAAATATATCAATCCAAATAGCCAGCAAAGAACAAGAAACTCACGATTGTTCTTCTTGACAGTTCTGCAAAAGATCTTTCTTTGGTGGCACGTAGATATTCCTTAAGGTTATGTTGTTTAGACTCAAATATCAAGGACGATCATTTGAATATAATGCAAGTCTTTCAATAAACCTTTCACATGCACCGAGCAAAACGTTCAAAGTCGTCCAAGTTTAATTGGATTCATTCAACCATGAATAATAAAACATCATACCATGGTATATGTAAATAACATAATTACAAAAGGATCTATTATATTCAAGAACTTTTACATCACAGATCTTTCAACTTCCAAGATTGCAATTCTTCAGCATAATTATTTGAGTAAGATAACTACCAGAACTTGTTCAACAAATTGGATTGGTGATTATTTAGAAAATCAGTAATACAAAAATTCTTGAATTCACAATAAGCGTGCCTAAATATTGGAACGTGAGATCCAAGTTAAACGTTGTTTAAATCCCATACCAAATGTTTAAAAAATTCAAACTTCATTCAACTGTATAAAACCTTAAGTTCGTCGATTGTTGAGTTCTTGTTGATTCAAATTCGGAAGAAGAGGGAGAGAAATGGTGCGAGAGACAGGTAGTAACGTAAAAGCACAATTGGATAATGAACCATTATCATTTTGCCAGAACAATAAGAAAAGAACTTGCAGAAACAAAGAAACCCAGCAAAAAAGAAACAACCTATACAACAATTATCTAGACCAAAACCATAACCTAACCTCCAAAACCATACAAAGTCCTTCCCTGCCTTTTCAAGGCATAAACAACATCCATAGCAGTCACCGTCTTCCTCCTTGCATGCTCAGTGTAAGTAACAGCATCACGAATCACATTCTCAAGGAAAATCTTCAAAACCCCTCTCGTTTCTTCATAGATCAATCCACTGATACGCTTCACACCACCTCTACGAGCCAAACGGCGAATGGCAGGCTTGGTAATCCCCTGAATGTTATCTCTCAAAACCTTCCGGTGACGCTTTGCTCCTCCCTTCCCCAACCCCTTTCCTCCCTTTCCACGGCCAGACATTTCCTTGATTGATTTGAAGGAATGAAGAATGAATCGATTGATTGGGAATTTTTCTGAGTTAATGCCCTAATTTAGTGGTTTGGGGTATTTATGAATGTGATGATACAGAACTCCTATTTCCAGTCGGATTTGGAGTTCGGAAACGAAGCACCTTATCCGTTGGATTATCGATCTAATCGACGGTTGAGAATGACGATCCGCGTGAAGCCTTTTCGGATCGAGGCTTGAAAATGCGCTTTAATTCAATTATTTGGCGGGCAAAGTTAAATTTGTGAGTCGGGCAGCGGGAATTCCAAATTTGCTGCCCATTTACAATTTTCCTTACAACCAACTAAAACCTTCAATATTAATTAGACACTAATTCCGAATTTCATAACAAAAAAATGTATTATACTCATACTCACAAATTTGATTGGCATTTGGATCTTAGGCATAAAGTTACGATTATATAAACTAGATTCAAAATATTATCATATATATCAATATTTTTAAAAATTGCACATACTCAAAATTTATCATTGATGAACCCAGGACCTTGAGCTTTGAAGGGAGCACAACCACTAGACCAGATACATAATTTAACAACACTAAAATATTATTTTAATATAACGGTTTAAAATTAATATTAAAATACGAAAACTAGAAATGTGAGGGGTACGTGTCCCTGACTCTTTAATAAATCTGTGTATGATGATAGAAGTCTATAACTAATAGATCATATTACAAATATTAAACTCGTATGATTTATTATTTTTAATCAATTTTATTCTATTTATATTTTCTTTTAAAATATAAGTATATACTTAATTATTATTCATAAAAATTGTTAATGTAGGTTATCTTTTTACCCTTCTATATAAAAAAGTTGAAACCAAATTAAAGTAGGAAACAAAAAATCTAATTATTTTCATAGTTATGAAAAATAAATAAAGATTTTTAAAGAGCTTTTCCATTCTTCAGAATTAGGAAATCTTTTTCATTATTTTTTATCTTGAAAGAAAGAAATATAAGTATAGGAAAAATAGGATTAATTATATTTATAAATTCTAATAAGATTAGGATTCTAAATCCTAATAACATCATAGTTTGTTCTTTTAGTCTTATAAATAAGACATTGTAACTGGCATTAAAGCATAAGAAGAAGAAAAATCTCAAACCTTCCTATAGTTTTGGTATAGGTTTAATATCAACTCGATTGTAATTACGTTGGTTTAGGATTACGTTTTCAAGTATATCTTAATTGGAAATACATGTCTTAATTTCTCTCAATTCATCGTTCTACAACATTTCCGTAAAGAAACAAGAAAACTGCCAACATATCAAACTTCCATAAAAATTCAATTGTCATTTCATCTTTTTGGATTTAACATTCTACCATCTATGTCATTACTCTTAAATCTCCTCACCATCTCTTTGTTCTTCCTTGGAAACCAAACCTCATGTTTTCCCTTTTCTCCTCACCGGTCAAAATTTTGCACACTCTCCGTACAAAATCCTCTCAACCTATTTTTCTTCACTACCTATTTCCAAAAGTTTCATTTCCCTCCTTGAAAAATCTTTGGCGATGCTGAAACTTGCGGCTGGGAACCGATTGTTCTCGATCATGTCTAGTGTTGAACCTCTCAATGGACTGCAAGGAGAAAGGGTTAAGGTTTATTTTATTATTATTATTTTTTTGTTATTGTTGGTTAAAGTTCTTGTTCTGTTTTGTTATACTTTGAGTTAATTACATTGTTTTTGAAGAATTTCTTTGAGTTGTGATGCATATTGGTAGGGAGCTGAATCCTTTCTCAGGAATGTTTTGGCCAGCATGGAGGCTGTTTATCTGACTTGGAATCCCATTGCAAAGTCCGTTTTGGAGCTTGTTCGATCTGTTCATGATGATACAATTTGTTATGATCATATTGCATTTAGAACTTTTGGGTTATTTTTCTTCCTTCCATTTTTTTCTACTTGCTGATTTGACATGGTGTAGAGTGGATAGTTTAGGAGGTCCTATGTTCAAAAGTGAGTAGATGGTTTAGGAGATCCTATATTCAAAATGAAGTGAATTCTAGATGATATAATATTAAATTTATCTTAACCCATCAACTTAAGCTTCTAGGTGATTAAGTGGTTAACAATAATATCATTTCAAAAGTTTAAATCAAAATCAAGTGGAGAGAACACAAATGCCAATATTTTAAGTAAAGGTGAATAACGATTGTATCAAAGTTATTCCATTTCTAAAGTTGGGCCGTAGAACATAATTGGGCTTGAAGGTGTAATCGTACTCTACTTCATTTGCAAACTAATGAAGTTGAGTCAACATTGTTAAATAATAAAGCTGCTTGATGTTGGTTGAGTCAACGACCAATTCTATAGTGTAATTAATGTTGAAGTTGTGTTTGTATTATGTGATGAAACTAGATGGATGGGCATGGATTGACTCATTAGCAAATGGAAATGCTAATCAAAAGAAAAGATTGAGATCATTGAATTTTTAAAAGTTGAAAAAAATGGAAAAAAGAACATCACATATATTTCAAGCTTGTACAGGTGAAGGAGTATCGCAGAAGGAATGGGTTTGAATGGGTTTGAAGTAGGAAATGCTGATAAGATCTTTGAAAGTACATCCAAATTAACAGCAGCAAATGGCAAACGCTTGAAGCCAAATTGCTGCAAAGGGAAGGGAATACACTTGGAGGTTTAAATGCGATGTGGAAGTAGGAATTCCACACCCTTTAAAATAATTCTCAATTTAAATCATTGGTGCTAATCTTATTAGTGTATCTGATTGTCAATTCTATCCATACTTAGATATAGTTGTATATAGCTGAAATACTTGCTAATATGATGTTGAATAATCTAACCTCCTCCCTAGCATGTGCACCAAAGTCGAGCATCGTTTTTTGTACAAGCAGCATCATCAATAGTAGTTGATGTGTCAAAGTTGAAAATATATGCTATGAAATACTATGATATTAAGAAAGAAATTTAGCGAACAACACTACTCTTCTCTTTCTTCTTTCTCCTACTATAGTTAAATAATATTAGAGGTCTAACAGAAATGTAAAAAAGTGAAAAGCAATACACAAATAGTCAGCCAATTGAAGAAGCAGGTAATGTGTTTTTCCTTAGTATTCTCCTCCCACGTTCACTAATAATCTTCTCAAAACATTCCTAACTTATTACATGTGCAATATCATGGTTCACATTAATCTTGTCCTGTCCTCAAAGTTGTACCATGCAAATTGGGAGCAAAAATAATCTATGTTATTCATATGGTTTCATGCTTCAAGAGGCCATATGGCAAGGATTGGATTATCCGCATATGTTGGTTGGTTTTGCTATCCATTCAAAATATTTAGTCAGCATTTTGCTTTGTTAGGGATTGATTTTGATACAAATGACACAAACAACCATTAGACCAAAGAAAATAGCCTCTCTCCTAGGAAAGAGTATTAAGAGTGTTAGTGTCTAAGACCCAAATAAATGTATCACTTAAAAGGTGGAGTGTAGCAAAACAATTACTAATTGGAATTTTCTTATGAAGACTTATTGGGGTAAATTAGATCAATTACACATAAATATATTATTATAGCTTCATTAAAGGAGAGTTCATTCTTCACTTGCAAACTCTTGACTTGTTGCACTAATTTGCTTTTTGGCTTAAGCATCATAAATAGTGTGGCAAGCACCACAACTCTTTGCAAATCTTTTCTCTTAAGAGTTTTTGCATCAACATACTTGTCCATATTCTAAAAAATAGATAGAGGTAAGATAAGTACGCAACCCCATGGAAATTAGAAAGAGATTTTTGACAAAATCAAGTTGTCGGTATATGCATATGCATACAAATTAGAATGAAAACAATTCTCTAAAAACATCTTCTCCCATTGAAAAAAAAAGAGAATATTTCCCATTACTAATTTTCTTGAGCCAGTAGATTGAATCCTTACTTCCAATCTATCATGTTTCTGTATTTTCAAATTTAAAGAACATTTCTAAAATTTGGACTGAATTTCATAAACTATAGTTGAAGGCATAGTTTCTTCATGTTTGTTTTTAAAAATATTTATTCATTAATTTCTCAACGAAATTAACATGATGTATTATTGACTATTTTCTGAATTTTTATAAAGTTTTTATATATCTGTTTGTGAAGAATTAGTGACCGAACAATTATCAATCACATAGATCTTGTGGTAATGATGATGGTGGTAACTGTCACAATCCAAATATTGAGCACAAACCATAAAACATAGTAAGATATAACTTCAATAAATCTACTACTAAAGAATTTGAAATCTTTAAACCCAAGATTTGAATTAAGGAAAAAAAACCTTTACAACTAAATAAGAAAAAAATCCCGTACATGATTTATTGATTTTTAATTAGAGGTAGTTTTGGAATAAATAAAATAAAATATCACAAATCAAATCTAAACTCACTTTGATTTTACTTGATTTCAAGATTTTGTTATAATTGCAATATAACAAAGATACTAATATATAAAATACATTTGCTATCTAATGCAATTCTTATATTATAATATTTTTAAAAAGTCAAATTAAAAAATTGAAAAGATATTATATTTAGGAGGTTTTTTAAAAAAAAATAGTTAAGAAAAAAAAAACTATTGTCTATTTTATCATTTTTTTGACAATATATTTATTAATTTTCAGTCAGATCTAAAAAGAGAAAAAAAGAAAAGAAAAGAAAACCAGAATCCTCAAATGTAAGTAAACCGAAGTGGCGAAGCGCATTGACGTTTGGCTTAGTTCATTTTGAAAATTCAAAATTTACACTTGTTGAGATTGATGCCCTAAATCTTGTGGTCTTGTAGTTTGTAATTGTATATATTATACAAACATTTTATTTATCTAATAAAATAAAGTGTGTTATTTTATTTGACATTTAGTTGCATTAACCCACAAAACCAATAAACTAACATCCAAGGTTATCTTATGTAACCCAAATGTGTATGTGGAGACATACAAGTGGATTATGTTTAAATGATAACCTAAATGATCTG

mRNA sequence

GCCGAATAAAAAGAACAAAATATTCGAGTTTAAGGTATTTGTTGACAAATATTATGATAGTAAAGATACAAAATAAAAGCAAATACAACAAGTTGAGATCACATATCACAAGCAAACCAAAACCATAACCTAACCTCCAAAACCATACAAAGTCCTTCCCTGCCTTTTCAAGGCATAAACAACATCCATAGCAGTCACCGTCTTCCTCCTTGCATGCTCAGTGTAAGTAACAGCATCACGAATCACATTCTCAAGGAAAATCTTCAAAACCCCTCTCGTTTCTTCATAGATCAATCCACTGATACGCTTCACACCACCTCTACGAGCCAAACGGCGAATGGCAGGCTTGGTAATCCCCTGAATGTTATCTCTCAAAACCTTCCGGTGACGCTTTGCTCCTCCCTTCCCCAACCCCTTTCCTCCCTTTCCACGGCCAGACCTAAATGATCTG

Coding sequence (CDS)

GCCGAATAAAAAGAACAAAATATTCGAGTTTAAGGTATTTGTTGACAAATATTATGATAGTAAAGATACAAAATAAAAGCAAATACAACAAGTTGAGATCACATATCACAAGCAAACCAAAACCATAACCTAACCTCCAAAACCATACAAAGTCCTTCCCTGCCTTTTCAAGGCATAAACAACATCCATAGCAGTCACCGTCTTCCTCCTTGCATGCTCAGTGTAAGTAACAGCATCACGAATCACATTCTCAAGGAAAATCTTCAAAACCCCTCTCGTTTCTTCATAGATCAATCCACTGATACGCTTCACACCACCTCTACGAGCCAAACGGCGAATGGCAGGCTTGGTAATCCCCTGAATGTTATCTCTCAAAACCTTCCGGTGACGCTTTGCTCCTCCCTTCCCCAACCCCTTTCCTCCCTTTCCACGGCCAGACCTAAATGATCTG

Protein sequence

AE*KEQNIRV*GIC*QIL***RYKIKANTTS*DHISQANQNHNLTSKTIQSPSLPFQGINNIHSSHRLPPCMLSVSNSITNHILKENLQNPSRFFIDQSTDTLHTTSTSQTANGRLGNPLNVISQNLPVTLCSSLPQPLSSLSTARPK*SX
Homology
[Close]
BLAST of Chy11G198630.1 vs. ExPASy TrEMBL
Match: A0A6A5PAG4 (Uncharacterized protein OS=Lupinus albus OX=3870 GN=Lal_00027024 PE=4 SV=1)

HSP 1 Score: 115.5 bits (288), Expect = 1.9e-22
Identity = 58/104 (55.77%), Postives = 79/104 (75.96%), Query Frame = 0 

Query: 43  NLTSKTIQSPSLPFQGINNIHSSHRLPPCMLSVSNSITNHILKENLQNPSRFFIDQSTDT 102
           NLT+KTI+ PSL  + INNIHSS+RLPP M S+SN ITNHIL+E+ +N SR FI+Q+TD+
Sbjct: 6   NLTTKTIEGPSLSLESINNIHSSNRLPPSMFSISNCITNHILQEDFENTSRLFINQTTDS 65

Query: 103 LHTTSTSQTANGRLGNPLNVISQNLPVTLCSSLPQPLSSLSTAR 147
            HT+S+ Q+ N R  + LNV++QNL + L ++  Q LS+ ST R
Sbjct: 66  FHTSSSRQSPNRRFCDSLNVVAQNLSMPLRATFAQTLSTFSTTR 109

[Close]
BLAST of Chy11G198630.1 vs. ExPASy TrEMBL
Match: A0A1J3E1Q1 (Uncharacterized protein (Fragment) OS=Noccaea caerulescens OX=107243 GN=GA_TR14670_c0_g1_i1_g.45534 PE=4 SV=1)

HSP 1 Score: 111.7 bits (278), Expect = 2.7e-21
Identity = 57/101 (56.44%), Postives = 83/101 (82.18%), Query Frame = 0 

Query: 45  TSKTIQSPSLPFQGINNIHSSHRLPPCMLSVSNSITNHILKENLQNPSRFFIDQSTDTLH 104
           T+++I+S +L  Q I+NIH SHRLPP +LSVS+S+++ IL+++LQN SRFF+DQ+ D+LH
Sbjct: 74  TAESIESTALSLQRIHNIHCSHRLPPRVLSVSHSVSDDILEKDLQNSSRFFVDQAADSLH 133

Query: 105 TTSTSQTANGRLGNPLNVISQNLPVTLCSSLPQPLSSLSTA 146
            +STS++ N RL + L+V+SQNLPV+L SS PQ LSS S++
Sbjct: 134 ASSTSKSPNRRLRDSLDVVSQNLPVSLRSSFPQSLSSFSSS 174

[Close]
BLAST of Chy11G198630.1 vs. ExPASy TrEMBL
Match: V9IKG5 (Uncharacterized protein OS=Apis cerana OX=7461 GN=ACCB12939 PE=2 SV=1)

HSP 1 Score: 105.5 bits (262), Expect = 1.9e-19
Identity = 57/98 (58.16%), Postives = 74/98 (75.51%), Query Frame = 0 

Query: 42  HNLTSKTIQSPSLPFQGINNIHSSHRLPPCMLSVSNSITNHILKENLQNPSRFFIDQSTD 101
           H LT+KT++  SL  Q +N IH S+ LP  MLSVS+SI+++I +E LQ  S FF+DQS +
Sbjct: 16  HQLTTKTVKGSSLTLQSVNYIHGSYSLPLGMLSVSDSISDNIFQEYLQYTSCFFVDQSRN 75

Query: 102 TLHTTSTSQTANGRLGNPLNVISQNLPVTLCSSL-PQP 139
           TLHTT+TS+T NG  GN L+VI+QNL +TLCSSL P P
Sbjct: 76  TLHTTTTSKTTNGWFGNTLDVITQNLSMTLCSSLSPNP 113

[Close]
BLAST of Chy11G198630.1 vs. ExPASy TrEMBL
Match: I3SU04 (Uncharacterized protein OS=Lotus japonicus OX=34305 PE=2 SV=1)

HSP 1 Score: 102.4 bits (254), Expect = 1.6e-18
Identity = 55/103 (53.40%), Postives = 73/103 (70.87%), Query Frame = 0 

Query: 44  LTSKTIQSPSLPFQGINNIHSSHRLPPCMLSVSNSITNHILKENLQNPSRFFIDQSTDTL 103
           LT K+I+ PSL  + I++IH S+ LPP MLSV NSITNHILK++L+N +   IDQ+TDTL
Sbjct: 31  LTPKSIECPSLSLESIHHIHGSNSLPPSMLSVGNSITNHILKKDLENTTSLLIDQATDTL 90

Query: 104 HTTSTSQTANGRLGNPLNVISQNLPVTLCSSLPQPLSSLSTAR 147
           H T  SQT N  L + L+V++++L V   SSL Q  +S ST R
Sbjct: 91  HATPASQTPNRWLRDSLDVVAEDLTVPFGSSLAQSFTSFSTPR 133

[Close]
BLAST of Chy11G198630.1 vs. ExPASy TrEMBL
Match: A0A1L8D8J5 (Uncharacterized protein (Fragment) OS=Nyssomyia neivai OX=330878 PE=4 SV=1)

HSP 1 Score: 99.0 bits (245), Expect = 1.8e-17
Identity = 48/100 (48.00%), Postives = 74/100 (74.00%), Query Frame = 0 

Query: 44  LTSKTIQSPSLPFQGINNIHSSHRLPPCMLSVSNSITNHILKENLQNPSRFFIDQSTDTL 103
           LT+KT+QS +L  QGI+++HSSH L  C+LSV + ITNH+L+ENL+N + FF+D+  +T 
Sbjct: 18  LTTKTVQSTALTLQGIHDVHSSHGLTFCVLSVCHGITNHVLQENLENTTGFFVDEPRNTF 77

Query: 104 HTTSTSQTANGRLGNPLNVISQNLPVTLCSSLPQPLSSLS 144
           H T+T QT N  L + L++++++L +TL +S  Q  +SLS
Sbjct: 78  HATTTGQTTNSWLRDTLDIVTKHLTMTLSTSFSQSFTSLS 117

[Close]
BLAST of Chy11G198630.1 vs. NCBI nr
Match: KAF1894647.1 (hypothetical protein Lal_00027024 [Lupinus albus])

HSP 1 Score: 114 bits (284), Expect = 1.30e-28
Identity = 58/104 (55.77%), Postives = 79/104 (75.96%), Query Frame = 0 

Query: 43  NLTSKTIQSPSLPFQGINNIHSSHRLPPCMLSVSNSITNHILKENLQNPSRFFIDQSTDT 102
           NLT+KTI+ PSL  + INNIHSS+RLPP M S+SN ITNHIL+E+ +N SR FI+Q+TD+
Sbjct: 6   NLTTKTIEGPSLSLESINNIHSSNRLPPSMFSISNCITNHILQEDFENTSRLFINQTTDS 65

Query: 103 LHTTSTSQTANGRLGNPLNVISQNLPVTLCSSLPQPLSSLSTAR 146
            HT+S+ Q+ N R  + LNV++QNL + L ++  Q LS+ ST R
Sbjct: 66  FHTSSSRQSPNRRFCDSLNVVAQNLSMPLRATFAQTLSTFSTTR 109

[Close]
BLAST of Chy11G198630.1 vs. NCBI nr
Match: KAG4945300.1 (hypothetical protein JHK87_041307 [Glycine soja])

HSP 1 Score: 110 bits (276), Expect = 5.06e-28
Identity = 56/110 (50.91%), Postives = 79/110 (71.82%), Query Frame = 0 

Query: 37  QANQNHNLTSKTIQSPSLPFQGINNIHSSHRLPPCMLSVSNSITNHILKENLQNPSRFFI 96
           + NQ   LT+K+++ PSLP + INN+HS + LPP +L VSN +T+ IL+E+L+N +   +
Sbjct: 15  EENQAKTLTTKSVEGPSLPLKRINNVHSRNGLPPSVLRVSNGVTDDILQEDLENTASLLV 74

Query: 97  DQSTDTLHTTSTSQTANGRLGNPLNVISQNLPVTLCSSLPQPLSSLSTAR 146
           DQ+ DTLHTT  SQT N  L N LNV++++L ++ CSS  Q LSSLST R
Sbjct: 75  DQTADTLHTTPASQTTNRWLRNSLNVVAEHLTMSFCSSFSQSLSSLSTPR 124

[Close]
BLAST of Chy11G198630.1 vs. NCBI nr
Match: KAG4948179.1 (hypothetical protein JHK86_041418 [Glycine max] >KAG5104389.1 hypothetical protein JHK82_041359 [Glycine max] >KAG5115513.1 hypothetical protein JHK84_041626 [Glycine max])

HSP 1 Score: 108 bits (271), Expect = 2.88e-27
Identity = 55/110 (50.00%), Postives = 78/110 (70.91%), Query Frame = 0 

Query: 37  QANQNHNLTSKTIQSPSLPFQGINNIHSSHRLPPCMLSVSNSITNHILKENLQNPSRFFI 96
           + NQ   LT+K+++ PSLP + INN+HS + LPP +L VSN +T+ IL+E+L+N +   +
Sbjct: 15  EENQAKTLTTKSVEGPSLPLKRINNVHSRNGLPPSVLRVSNGVTDDILQEDLENTASLLV 74

Query: 97  DQSTDTLHTTSTSQTANGRLGNPLNVISQNLPVTLCSSLPQPLSSLSTAR 146
           DQ+ DTLH T  SQT N  L N LNV++++L ++ CSS  Q LSSLST R
Sbjct: 75  DQTADTLHATPASQTTNRWLRNSLNVVAEHLTMSFCSSFSQSLSSLSTPR 124

[Close]
BLAST of Chy11G198630.1 vs. NCBI nr
Match: KAG6544032.1 (hypothetical protein Mapa_014555 [Marchantia paleacea])

HSP 1 Score: 106 bits (264), Expect = 8.45e-26
Identity = 59/124 (47.58%), Postives = 86/124 (69.35%), Query Frame = 0 

Query: 24  KIKANTTS*DHISQANQNHNLTS-KTIQSPSLPFQGINNIHSSHRLPPCMLSVSNSITNH 83
           K+ A+    D  SQ  +  N+ S + IQS SL  Q +++IH S  L PC+L + + I+NH
Sbjct: 30  KLYASKKRADVQSQDTKKINILSPEPIQSSSLSLQRVHHIHGSDSLSPCVLRICHRISNH 89

Query: 84  ILKENLQNPSRFFIDQSTDTLHTTSTSQTANGRLGNPLNVISQNLPVTLCSSLPQPLSSL 143
           IL++NLQNP+   I+Q  D+LH++S+ QT +G LGNPLN+IS++LPVTL +SL Q  +SL
Sbjct: 90  ILQKNLQNPASLLINQPADSLHSSSSGQTPDGGLGNPLNIISEHLPVTLGASLAQTFTSL 149

Query: 144 STAR 146
           S +R
Sbjct: 150 SASR 153

[Close]
BLAST of Chy11G198630.1 vs. NCBI nr
Match: KAF7816065.1 (histone H4 [Senna tora])

HSP 1 Score: 103 bits (257), Expect = 3.52e-24
Identity = 56/100 (56.00%), Postives = 75/100 (75.00%), Query Frame = 0 

Query: 45  TSKTIQSPSLPFQGINNIHSSHRLPPCMLSVSNSITNHILKENLQNPSRFFIDQSTDTLH 104
           T+K I+ PSLP + IN+IHSS+ LPP +L VS+ ITNHI +ENL++ S   IDQ+TD L 
Sbjct: 115 TAKPIEGPSLPLERINHIHSSNGLPPSVLRVSHCITNHIFQENLKHSSSLLIDQATDPLD 174

Query: 105 TTSTSQTANGRLGNPLNVISQNLPVTLCSSLPQPLSSLST 144
           T+S+ Q+ N RL + L+VI+QNL + LCSS  Q L+SLST
Sbjct: 175 TSSSRQSPNRRLRDTLDVIAQNLAMPLCSSFAQTLASLST 214

The following BLAST results are available for this feature:
BLAST of Chy11G198630.1 vs.
Match NameE-valueIdentityDescription
BLAST of Chy11G198630.1 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6A5PAG41.9e-2255.77Uncharacterized protein OS=Lupinus albus OX=3870 GN=Lal_00027024 PE=4 SV=1[more]
A0A1J3E1Q12.7e-2156.44Uncharacterized protein (Fragment) OS=Noccaea caerulescens OX=107243 GN=GA_TR146... [more]
V9IKG51.9e-1958.16Uncharacterized protein OS=Apis cerana OX=7461 GN=ACCB12939 PE=2 SV=1[more]
I3SU041.6e-1853.40Uncharacterized protein OS=Lotus japonicus OX=34305 PE=2 SV=1[more]
A0A1L8D8J51.8e-1748.00Uncharacterized protein (Fragment) OS=Nyssomyia neivai OX=330878 PE=4 SV=1[more]
BLAST of Chy11G198630.1 vs. NCBI nr
Match NameE-valueIdentityDescription
KAF1894647.11.30e-2855.77hypothetical protein Lal_00027024 [Lupinus albus][more]
KAG4945300.15.06e-2850.91hypothetical protein JHK87_041307 [Glycine soja][more]
KAG4948179.12.88e-2750.00hypothetical protein JHK86_041418 [Glycine max] >KAG5104389.1 hypothetical prote... [more]
KAG6544032.18.45e-2647.58hypothetical protein Mapa_014555 [Marchantia paleacea][more]
KAF7816065.13.52e-2456.00histone H4 [Senna tora][more]
BLAST of Chy11G198630.1 vs. NCBI nr
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Cucumber (hystrix) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availablePANTHERPTHR47749FAMILY NOT NAMEDcoord: 23..139

Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameType
Chy11G198630Chy11G198630gene


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

Feature NameUnique NameType
Chy11G198630.1.exon1Chy11G198630.1.exon1exon
Chy11G198630.1.exon2Chy11G198630.1.exon2exon
Chy11G198630.1.exon3Chy11G198630.1.exon3exon
Chy11G198630.1.exon4Chy11G198630.1.exon4exon
Chy11G198630.1.exon5Chy11G198630.1.exon5exon
Chy11G198630.1.exon6Chy11G198630.1.exon6exon
Chy11G198630.1.exon7Chy11G198630.1.exon7exon
Chy11G198630.1.exon8Chy11G198630.1.exon8exon


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

Feature NameUnique NameType
Chy11G198630.1.cds1Chy11G198630.1.cds1CDS
Chy11G198630.1.cds2Chy11G198630.1.cds2CDS
Chy11G198630.1.cds3Chy11G198630.1.cds3CDS
Chy11G198630.1.cds4Chy11G198630.1.cds4CDS
Chy11G198630.1.cds5Chy11G198630.1.cds5CDS
Chy11G198630.1.cds6Chy11G198630.1.cds6CDS
Chy11G198630.1.cds7Chy11G198630.1.cds7CDS
Chy11G198630.1.cds8Chy11G198630.1.cds8CDS


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameType
Chy11G198630.1Chy11G198630.1-proteinpolypeptide