Gene detail

Detail information of GWHGAAZE011929

Functional Annotation

Database	Orthologs	Annotation
Nr	XP_010644587.1	PREDICTED: E3 ubiquitin-protein ligase UPL1 isoform X1 [Vitis vinifera]
Swissprot	tr\|Q8GY23\|UPL1_ARATH	E3 ubiquitin-protein ligase UPL1
trEMBL	tr\|W9QFS0\|W9QFS0_9ROSA	E3 ubiquitin-protein ligase UPL1 {ECO:0000313\|EMBL:EXB36051.1}
TAIR10	AT1G55860.2	ubiquitin-protein ligase 1

Location And Transcript Sequence (JBrowse)

Scaffold	Type	Start	End	Strand
GWHAAZE00000003	gene	75487445	75504799	+
GWHAAZE00000003	mRNA	75487445	75504799	+
GWHAAZE00000003	exon	75487445	75487558	+
GWHAAZE00000003	exon	75488515	75488610	+
GWHAAZE00000003	exon	75488691	75488897	+
GWHAAZE00000003	exon	75489899	75495595	+
GWHAAZE00000003	exon	75496257	75498515	+
GWHAAZE00000003	exon	75498593	75499002	+
GWHAAZE00000003	exon	75499682	75499772	+
GWHAAZE00000003	exon	75500899	75501100	+
GWHAAZE00000003	exon	75501205	75501491	+
GWHAAZE00000003	exon	75501593	75501882	+
GWHAAZE00000003	exon	75501990	75503100	+
GWHAAZE00000003	exon	75503225	75503371	+
GWHAAZE00000003	exon	75503478	75503558	+
GWHAAZE00000003	exon	75503709	75503934	+
GWHAAZE00000003	exon	75504020	75504159	+
GWHAAZE00000003	exon	75504463	75504569	+
GWHAAZE00000003	exon	75504697	75504799	+
GWHAAZE00000003	five_prime_UTR	75487445	75487525	+
GWHAAZE00000003	CDS	75487526	75487558	+
GWHAAZE00000003	CDS	75488515	75488610	+
GWHAAZE00000003	CDS	75488691	75488897	+
GWHAAZE00000003	CDS	75489899	75495595	+
GWHAAZE00000003	CDS	75496257	75498515	+
GWHAAZE00000003	CDS	75498593	75499002	+
GWHAAZE00000003	CDS	75499682	75499772	+
GWHAAZE00000003	CDS	75500899	75501100	+
GWHAAZE00000003	CDS	75501205	75501491	+
GWHAAZE00000003	CDS	75501593	75501882	+
GWHAAZE00000003	CDS	75501990	75503100	+
GWHAAZE00000003	CDS	75503225	75503371	+
GWHAAZE00000003	CDS	75503478	75503558	+
GWHAAZE00000003	CDS	75503709	75503934	+
GWHAAZE00000003	CDS	75504020	75504159	+
GWHAAZE00000003	CDS	75504463	75504569	+
GWHAAZE00000003	CDS	75504697	75504799	+

Transcript Sequence
>GWHTAAZE011941 GACTTCGATCGATCCTGAGTCAATCGATTTCAGTCCTTGTTTTGTTTCGGGCGATGTTTTTCTTCGGTTGATTGATTCAAGATGAAGTTGAAGAGGAGGAGAGCCTTAGAAGTGCCTCCAAAAATTAGATCCTTCATCAATGGCGTTACTGCTGTACCGCTTGAAAATATAGAAGAACCCCTTAAAAGTTTTGTCTGGGACTTTGACAAGGGAGATTTTCATCACTGGGTTGATCTTTTCAACCACTTCGATAGTTTCTTTGAGAAGTACATAAAGTCCAGAAAAGATTTGCAGGTTGAGGATAACTTTTTGGAGTCTGATCCTCCCTTCCCAAGAGAGGCTGTTCTTCAGATTCTCCGTGTAATACGAATAATATTGGAGAACTGCACAAATAAGCACTTCTACAGTTCATATGAGCACCATCTTTCGTCTCTGCTTGCTTCAACTGATGCGGATGTGGTTGAGGCCTGCCTGCAAACTTTGGCGGCTTTTTTAAAGAAAACGATTGGGAAGTACACTATAAGAGATGCTTCTCTTAATTCAAAATTATTTGCTTTTGCACAAGGATGGGGGGGAAAGGAAGAAGGCCTTGGATTACTTGCATGTGCTATGCAGAATGGATCTGACCCAATTGCGTATGAGTTAGGTAGCACTCTTCATTTTGAGTTCTATGCATCTGATGAGCTTTCAGACGAACGCTCTGCTACAGAACAGCCTACTGAAGGTTTACAAATCATTCATTTGCCTAATATCAGCAACTGCCTAGAGTCAGATCTTGAACTCCTGAATAAATTAGTCGTAGAGTACAAAGTACCGCCTTCTTTAAGATTTTCTCTTTTGACGAGATTGCGGTTTGCAAAGGCTTTCAGCTCCTTATCAGCCCGACAGCAGTACACATGCATTCGCCTGTATGCCTTTGTAGTACTCGTTCAAGCATGTGGTGATACTGATGATTTGGTCTCTTTCTTTAACACCGAGCCCGAGTTTATCAACGAATTGGTTATGTTATTGAGCTATGAAGATGCTGTTCCCGAAAAAATCCGAATTCTGAGCCTGCTTTCCTTGGTTGCTCTTTGTCAAGATCGGTCACGCCAGCCAACTGTTTTGACTGCTGTAACATCCGGTGGGCACCGTGGCATACTATCTAGCCTCATGCAGAAAGCCATTGATGCCGTTGTTAGTAATTCGTCAAAGTGGTCTGTTGTTTTTGCGGAGGCTTTATTATCTCTTGTCACTGTTTTGGTCTCATCTTCATCGGGTTGTTCAGCAATGCGCGAAGCTGGATTTATTCCGACTATTCTACCTCTTCTTAAAGATACAGATTCCCAGCATCTGCATTTGGTCAGCACAGCTGTACATATTCTAGAAGCTTTTATGGATTACAGCAATCCTGCTGCCACACTGTTCAGAGACTTGGGTGGTTTGGATGATACCATTTCCCGCCTGAAGGTAGAAGTTTCTCATGTCGAAAATGGTTCAAAGCAGCAAGGAATTTCTAATGAGCTAGAAACTTCAGAGTGTAGTAGTTCTCAAGTAGTACCAGGCACTTCGACCGAGCTAGATAGCATGCAGCCTCTTTATTCTGAAGCATTAGTTGCATATCATAGGAGGTCTCTAATGAAAGCTTTGCTGCGTGCTATATCTTTGGGAACTTATGCTCCTGGAAGCACTTCTCGTGTTCACGGTTCTGAGGAGAGTTTGTTGCCTCAATGCTTATGCATTATATTTAAAAGGGCTAAAGATTTCGGTGGGGGTGTGTTCTCCCTTGCAGCAACGGTTATGAGTGATCTCATTCACAAGGATCCTACCTGCTTTGGTACCTTAGAAGCAGCTGGTCTACCGTCCGCGTTCTTAGATGCTATAATGGACGGTGTTCTTTGCTCTGCAGAAGCTATAACGTGCGTACCCCAGTGCTTGGATGCTTTGTGCCTGAACAATAACGGCCTTCAGGCTGTGAAAGATTGCAATGCTTTGAGGTGCTTTGTGAAGATATTTACATCTAGAATGTATCTGCGTGTACTTACTGGTGATACACCAGGATCCTTGTCTAGTGGTCTGGATGAGCTAATGCGCCATGCTTCCTCATTACGGGGGCCCGGGGTGGACATGTTAATAGAGATGTTGAATGCACTTGCAAAGCTTGGATCTGGGTCTGAAGCAGCTTCTTCCTCATCCGTTGATTCTCCAAGGTGTTCAACTCCCGTTCCCATGGAAACTGATACTGATGATAGGAATTTGGTTGCGTCAGATGACAGGGTTGAAAATTCTGAGCAGCTCCCAGAACCTTCTTCAGATGCTTCATTGCTAAATGTCGAGTCTTTTCTTCCTGATTGTATAAGCAATGTTGCTCGTCTACTGGAAACAATTCTTCAGAATTCTGACACATGCCGTATATTTGTTGAAAAGAAGGGCGTTGAAGCTGTTTTGCAGTTATTTACTTTGCCCTTACTGCCTCTTTCTGTTTCTGTTGGCCAGAGCATATCAGCTGCATTTAAGAACTTTTCTCCACAGCATTCTGCCTACCTTGCTCGAGCGGTATGTTCGTTTTTGAGAGAGCATTTGAAATCAACGAACGAACTTCTAGGTTCCATTGGAGGGACACAACTTGCTAAGGTAGAAGCTGCAACGCGGACAAAGCTGATGAGATATCTGTCTAGTCTTGAAGGTATCCTGTCCCTTTCTAACTCTTTGTTGAAGGGGACTACTACTGCTGTGGTGTCTGAATTGGGCAACGCCGATGCTGACGTGCTGAAAGATGTTGGGAGGGCCTACAGGGAAATACTTTGGCAAATTTCTTTGAGTTGTGATTCTAAAGCGGATGAGAAGCTGACTAATGAAGTAGAGCCTGATAATGCAGATACTAATGTTGCTACTAATACTGCCGGAAGAGAGAGTGACGATGATGTAAATGTTCCAGCAGTGAGATACATGAATCCTGTTTCTATTAGGAATACTTCTCACCCCCAGTGGGGCGTAGAACGCGAATTTCTTTCAGTGGTTCGTTCTGGTGAAGGGTTTAGTCGTCGGAGTCGACATGGGCTAGCACGCATCCGGGGAGGAAGGACAGGCAGGCACCTGGAATCTTTACACATGGAACCTGAGGTTCCCTTAAATACTACAGATACTTCGCCGCTGGATTTGAAGAAGAAAAGTCCTGAGGTTCTTGTTTTGGAGAGCCTAAACAAACTTGCTTCCACTTTGCGGTCTTTCTTTGTTGCACTTGTCAAAGGATTTACGTCGCCAAATCGTCGAAGAGCCGAGACTGGGACATTGAGTGCTGCTTCAAAGAGCATTGGAACTGCCCTTGCCAAAGTTTTTCTTGAGGCTCTTAGTTTCTCGGGGTATTCTACCTCTGTTGGGCTTGATATGTCATTATCTGTCAAGTGTCGCTATCTTGGAAAGGTTGTGGATGATATGGTGGTGCTCACGTTTGATAATAGGCGACGTACCTGTTATACAGTGATGATCAATAACTTCTATGTGCATGGAACCTTCAAGGAGCTTCTTACAACATTTGAAGCTACAAGTCAATTGCTATGGACGCTACCTTATTCTCTTCCAACTTCTGGTACAGATCATGAAAAAAGTGACGAGGGAATCAAATCTTCCCACAATTCATGGTTGCTTGATACATTACAGAGCTATTGCCGTGTACTCGAATATTTTGTTAATTCTTCTTTACTGCTGTCCCCAACCTCGGCATTCCAGTCTCAGCTGCTTGTTCAGCCCGTTGCAGTCGGTTTGTCAATTGGATTGTTTCCTGTTCCTAGAGACCCGGAAGTGTTTGTTCGTATGCTGCAGTCTCAGGTTCTTGATGTGATCCTACCTGTCTGGAATCACCCGATGTTCCCCACTTGTAGTGCAGGTTTTATCACTTCGATCGTCTCACTTGTTACCCATGTATACTCTGGTGTTGGAGATGTGAAACGGAATCGCAATGGTGTGTCTGGGAGTACAAATCAGAGGTTTATGCCCCCACCACCTGATGAAGCTACTATTGCTACCATTGTGGAGATGGGATTTACAAGGGCTAGAGCAGAGGCAGCATTGAGACGGGTGGAAACTAACAGTGTAGAGATGGCAATGGAATGGTTATTTAGTCATGCTGAAGATCCTGTACAGGAGGACGATGAACTGGCTAGAGCACTTGCTTTGTCCCTAGGGAGTTCATCAGATACATCTAAAGTAGAGAACACAGATAAATCACCGGACCTCCTGACAGAAGAGGGACAAACTAAGGCACCACCTGTTGATGACATACTTGCTGCAACAATGAAGTTGTTTCAGAATTGCGACTCCATGGCTTTTCCTTTAACAGATTTGCTTGCCACCCTCTGCAATCGGAACAAAGGAGAAGATCGAGCAAGAGTGGTTTCTTATCTAATTCAGCAGCTAAAGCTTTGCCCGTTGGAATTTTCCAAGGATACAAGTGCACTGTGTATGATATCGCATACTTTAGCATTACTTCTTTCTGAAGATGGAGGTACGAGGGAAATTGCTGCACAGAATGGCATTGCCTCTGTAGCAATAGATATCTTGACGAACTTCAAGGCTAGAACAGATTTGGGAAATGAGCTTTTGGTCCCAAAATGCATCAGTGCTTTGCTTCTTATCTTGGATAATTTGTTGCAGTGTAGGCCTAAAATTTCTTCCAATACTACAGAAGTAACCCCAGCAGGATCTTTACCTGACTCATCTGGAGAGCATACTTCGTTGCCAGTTCCACAAGAAGATTCAGAGAAGAAATCGACTCCGATGGCCTTGGAGAATGATACTAGCACCGCATTTGAGAAGATATTTGGAAATTCTACCGGTTATTTGACTTTTGAGGAGAGTGGTAGATTGCTGGTTGTTGCTTGTGATCTGATAAAACAACATGTTCCAGCAATTGTCATGCAGGCTGTCTTACAATTATGTGCTCGCTTGACAAAAACACATGCTCTGGCTCTGCAATTCCTTGAAAATGGAGGCATGCCTGCCCTTTTTAGTATTCCAAAAAGTTGCTTCTTCCCAGGATACGACGTTGTTGCATCTGCTATTATTCGCCATCTCATTGAAGACCCGCAGACACTACAAACCGCAATGGAACTGGAGATACGGCAAACACTAACTGGAAATCGTCACGCTGGTCGGGTTACTCCACGGACATTTTTGACTTCAATGGCACCTGTCATCTCTAGAGATCCAGAGGTCTTCATGAAAGCGGCCACATCTGTTTGTCAGTTGGAATCATCTGGAGGGAGGACTGTTGTTGTGTTATCCAAGGAAAAAGAGAGAGAGAAGGACAAATCAAAAGCACCTGGTGTTGAACTTGGAGTATCTCCTAATGAAACTGTTCGAATTCCCGAGAATAGAACCCCTGATGGGCCTGGTAAGTGTGCCAAAGGCCACAAAAAGATCCCTGCAAATCTTACTCAGGTAATTGATCAGCTGCTTGAAATTGTATTGAGATATCCTTCACCAAAAAGCGAGGAAGATTGTTTAAGTTACTCGAGTGCAATGGAGGTTGACGAGCTTGCTACCAAGGTAAAGGGAAAATCAAAGGTTGATGAGACAAGAAAGGTTGAGTCAGAAAGTCTTTCAGAAAGATCAGCAGGTCTAGCTAAGGTGACTTTTGTCCTCAAGTTATTGAGTGATATACTTCTGATGTATGTACATGCAGTTGGGGTTATACTGAAACGGGATCTGGAAATGTGCCAACTCCGGGGATCTAATCTAGAATGTTCCGGACATGGTGGGATATTGCATCATGTCTTGCATCGGCTTCTTCCATTGACTATAGATAAAACTGCTGGCCCTGACGAATGGAGAGGCAAGTTGTGCGAAAAAGCTTCCTGGTTTCTTGTGGTTTTTTGTGGTCGTTCTGGTGAAGGGCGTAGACGTGTAATTAATGAACTTGTGAAAGCCCTATCTTCGTTTTCAAACTCCGAGAGCAATTCATCCAAGAGATGTTTATTGCCAGATAAAAAGGTTCTTGCTTTTGTCGACCTGGTATATTCCATTTTGTCAAAGAATTCATCATCCAGCAACATACCTGGTTCTGGCTGCTCACCGGATATAGCAAAAAGCATGATAGATGGAGGAATTGTTCAATGCCTATCCAGCATTCTTAAGGTGATGGATTTGGATCATCCCGATGCTCCCAAAGTTGCTAATATCATACTTAAGGCTTTGGAAAGCCTAACTCGGGCTGCCAATGCTAGTGAGCAACTCTCCAAAACTGATGCGATGAACAAGAAAAAATCAATCGAATCAGGTGAGAGGTCTGACGATCAAGTAATGACCAATTCTGTCACTCAGACTATAGAGCCTAATCAGAATAGCAGTCGGCATGAAGGCGCTGATGTTGAGGACACAGAACAACAGCTTCAAGGTTCGTCTCAGAATGAAGGCGAACATCATTCAGTTCCAAACCAGTCTTTAGAACAGGATATGAGAAGAGAGGTGGAGGAGAATGTGGTTGCCAATCAACCTGTGGAGCTGGGGATGGATTTCATGCGAGAAGAGATGGAGGATGGTGGCGCATTACACAATACAGACCAAATTGAGATGACGTTTCATGTTGAGAACAGGGGAGACGATGATATGGCTGATGAAGATGATGACATGGGGGATGACGGCGAAGATGATGAGGATGATGATGATGGAGAAGATGAAGATGAGGATATAGCCGAGGATGGTACTGCCCTGATGTCTCTCGCAGACACTGATGTGGAAGATCATGATGAAACTGGTCTGGGAGATGAATATAATGATGATATGGTTGATGAAGAGGATGATGATTTCCATGAGAATCGTGTGATAGAGGTAAGGTGGAGGGAAGCCCTTGATGGGCTAGATCATTTGCAGGTACTGGGTCAACCAGGAGCTGAGAGCGGACTCATTGATGTTGCTGCCGAGCCCTTTGAAGGGGTGAATGTCGATGACCTTTTTGGTCTCCGCAGGCCCCTAGGGTTTGATCGCCGCCGGCAGACTAGTAGGACATCTTTTGAGCGATCTGTTACAGAAGGTAATGGTCTTCAACATCCTCTCCTGTTGAGACCACCATCACAGTCTGGAGATATGGTTTCGATGTGGGCATCAGGTGGCAACTCATCTAGGGATTTGGAAGCTCTCTCTGCTGGAAGCTTTGATGTAGCTCATTTCTACATGTTTGATGCTCCAGTGCTTCCCTTTGATCATTTACCAGCTAGTGTATTCGGTGACCGTCTCCGCGCAGCACCACCATCATTGGCTGATTTTTCTGTTGGTTTAGAGTCACTGCGAGTGCCAGGTCGAAGAGGGCCAGGGGATGGGCGGTGGACTGATGATGGTCTACCACAAGCTGGAGGTCAGGCTGCTGCCATTGCACAAGCGGTAGAAGAACATTTTGTGTCTCAGTTACGTGGTACCCCTGCCAGCGGTTCTGCTGAAAGGCAGTCACATAGCTCAGGACCGCCTGAGAAATCTTCAGATTTGCCATTAGCAAACGATAGTCAATTGGCCGTAGAGGTCGATTACAATGGGGCACAGCAGAGTGAAGGCCAGAATTGTGAGGTTGGGCCCGAAGCCATGCATCATGAAGACAGTCCAATGGGTCAAGAACAAGCTAGCCCAGATGTGGTGGTTGAACAAGCAGGTGAAGGCCTACAGGCAAATGAACCTATGTCAACTGTTGCGGTGAATCAGACACCAAATGGTCTTGATATCATGGATGTTGGGGAAGGGAATGACCCCAATGGCAGCGAGCAGGTAGAGTCAACCATTCTTACCTCATCTATGCTCCCTCAGGGTGATTCAGAACATGAAAGAAGTTCTCAAGTACATCCAGCAACGGATACAACTTCAACAACGGATAGACAGACAAGCAATGATGTGCTGGTAAATTCGAGTGGGGATATGCCTAATCTTGGTGATTCTCATGCTTCTTCAGTTCAAGGAAGTGTTGATGTCGAAATGAATGGCAACGAAACAGAAGGAAATCAGACTGGGCACCTCCAACCTTCCGAAGTTAATAGAGAGGAGCCATCTTCACTGCAGAACGCTGCTGTCACTCAGGATGGAGATCAGGTTGGTGGTACTGGTTTGAATGATGAAGCTCCTAATGCAAATGGTATAGATCCAACCTTCTTGGAGGCTCTTCCTGAAGATCTCCGGGCAGAAGTTCTAGCTTCACAGCAATCTCAGCCTGCTCCCCAAGCTCCTGCTACATATGTACCTCCTGCAGCAGAAGATATTGATCCAGAGTTTTTAGCAGCTCTCCCTCCAGATATTCAAGCGGAAGTTTTAGCCCAACAACGGGCGCAAAGGGTTGCACAGCAAGCTGAAGGACAACCTGTTGACATGGACAATGCTTCAATCATAGCCACTTTTCCTGCTGATTTGCGTGAAGAGGTGCTTTTGACTTCATCAGAGGCAGTTCTGTCAGCATTGCCATCTCCTTTACTTGCTGAGGCACAAATGCTTAGGGACCGAGCAATGAGTCATTATCAGGCTCGCAGCCTGTTTGGAGGTAGCCACAGGCTTAATAATCGGAGGAACGGGTTGGGGTTTGACAGGCAGACAGTGATGGACAGGGGTGTTGGCGTTACAATTGGCCGAAGGCCAGCTTCTGCGCATGCAGAGAGCATGAAGTTGAAGGAAGTAGAAGGGGAGCCCCTTCTTGATTCTAATGCATTGAAAGCTTTGATTAGGCTCCTTCGCTTGGCACAGGTAATCTTTATTACTCTTGGGTTGTTAACTGGCATCCTTATCAGGGAGCTTGTGCATTCTTACCAGTCATTGGTTGAGGATGTTATTGAAAAAGAGAAAGAGGTTGTAGTGCCTGGTGGTTTTAGGTTTGGTAGAAAATCTGAAAGATGCTTGGAAAGAGAGAGAGACACAGGGGCTCATCAGCCTCTTGGGAAAGGCCTTTTGCAGAGACTCTTGTTGAACTTATGTGCGCATAGTTGTACAAGGGCAATCCTTGTTCGTGTTCTACTTGACATGATCAAGCCTGAGACTGAAGGGCCTGCTGGCAGATTGACAACAGTTAATTCCCAAAGACTTTATGGGTGTCAATCCAATGTTGTTTATGGTCGATCTCAATTGTTGGATGGTCTCCCTCCTCTAGTGCTGCGGCGGATTCTTGAGATTTTGACTTATTTGGCCACCAATCATTCTGCTGTTGCCAATATCTTGTTCTACTTTGACCCTTTACTTATTCCAGAGTCTTCAAATCCAAATTTTCTAGAAACCAAGAAGGATAAAGGCAAAGAGAAAATTGTTGAAGGAGATCTATCAAATCCTGTCCAGTGTCACCATGAGGGGGATGTTCCTTTGATATTGTTACTGAAGCTCTTGAATCAGCCACTTTTCTTGCGAAGCATTGCTCATCTGGAGCAGGTCATGGGTTTGCTGCAAGTAGTTGTTTGCACTGCAGCATCAAAGTTGAATCGCCAGACTCAGTCTGAACTAGCCGCAGCGAGTTCTCAAAATCTCTCAGGCAATGAAGCTGCTAGTGATGTTCCAAAAGATTCTCCTTCGTTGGATGTGGAATCAAATCGAGCTGATAAAAGTGGTGGCGATGGAGTATCCACATCAGACGGACAGAGAAGCAATAAGATGTATGACATCTTTTTGCAGCTACCACAACCAGATTTGCATAATTTAAGCAGCCTTCTTGGTCATGAGGGGCTTTCAGAAAAAATTTACATGCTCGCTGGTGAGGTTTTGAAGAAGTTGGCCTCTGTTGCTGCCCCTCATCGCAAATTTTTCATTATAGAGCTTTCAGATTTAGCTCATAGTTTGAGCAGTTCAGCTGTCAGTGAGCTTGTCACTCTTAGGAACACAAACATGCTCGGTTTGAGTGCTGGATCCATGGCAGGGGCCGCAATCCTACGTGTACTACAGACGCTCAGCTCACTCATTTCACCCACTACTGATGGTAATAGAAGTATGGAGAGTGACGGGGAACAAGAAGAGCATGCCACTATGTGGAAGCTAAATGTCGCACTTGAGCCGTTGTGGCAAGAACTGAGCCACTGTATAAGTACAACCGAGATTCAGCTAGCGCAGAGTTCATTCTCTTCAATCGTGTCAACTGTAAACGTGGGGGAGCCTGTACAAGGTTCATCGTCTCTCTCTCCCCCGCTTCCTCCGGGAGCTCAGAGACTCTTGCCTTTCATTGAGGCTTTCCTGGTTTTGTGCGAAAAACTACAAGCGAACAATTCCCTGACACAACAACATGATCATGCTGATGCAACTGCAAGAGAAGTGAAAGAGTTACCTGGAAGTTTTTCTCCATTGTCTACAAAAGTTGATGGTGCTGTCACATTTGCAAGGTTTGCTGAGAAGCATCGCCGGCTTCTTAATGCTTTTGTCAGGCAGAATCCTGGCTTATTGGAGAAGTCACTTTCAATGATGCTGAAAGCACCGAGGTTGATTGATTTTGACAACAAAAGAGCCTATTTCCGTTCTAGAATTAGGCATCAGCATGAGCAACACCTCTCTGGTCCTCTTCGGATAAGTGTTCGGCGGGCATATGTTTTAGAGGACTCATATAACCAGTTGCGGATGAAGCCAACTCAGGACTTGAAGGGACGGCTGAATGTGCATTTTCAAGGTGAAGAGGGTATTGATGCAGGTGGCTTGACGAGGGAATGGTATCAATTACTGTCAAGGGTGATTTTTGACAAAGGAACTTTGCTTTTCACGACGGGGGGAAACGATGCAACCTTTCAACCAAACCCTAATTCTGTGTACCAGACTGAGCATCTTTCTTACTTCAAATTTGTGGGCCGCGTGGTTGCTAAAGCGCTGTTTGATGGGCAACTGTTGGATGTGTATTTCACTCGGTCATTCTACAAGCACATTCTTGGGGTGAAAGTAACTTATCATGATATAGAGGCTGTTGATCCTGATTACTACAAAAACTTGAAGTGGATGCTCGAGAATGATGTGAGTGAAATACCTGCTTTGACATTTAGCATGGATGCGGATGAAGAAAAACACATCCTCTATGAGAAAACAGAGGTTACTGATTATGAGCTTAAACCGGGAGGAGGAAATATAAGGGTCACGGAAGAAACAAAGCACGAGTATGTGGACCTTGTTGCCGAACACATTTTAACAAATGCGATTCGTCCACAAATTAATTCCTTCCTAGAAGGCTTCAATGAATTGATTCCGCGGGAACTCATCTCTATTTTTAACGATAAAGAGCTTGAGCTACTAATCAGTGGGCTTCCAGAAATTGACTTGGATGACCTGAAGTCCAACGCAGAGTATACTGGGTACACAGCAGCATCTTGCGTTGTTCAGTGGTTTTGGGAGGTGGTGAAATCCTTCAACAAGGAAGATATGGCAAGATTGCTGCAATTCGTAACTGGTACATCTAAGGTTCCTTTGGAGGGTTTTAAAGCATTACAAGGCATTTCGGGTCCACAGAGGTTTCAAATTCACAAGGCATATGGCGCTCCTGAGCGGCTGCCATCGGCTCATACCTGCTTCAACCAACTAGATCTTCCCGAGTATTCTACGAAGGAACAACTTCAAGAGCGCTTGCTACTAGCCATCCATGAAGCTAGTGAAGGATTTGGCTTTGGTTGA

Network for GWHGAAZE011929

Network category	Network	Top300 PCC genelist
Coexpression Positive	Network	Top300 PCC genelist
Coexpression Negative	Network	Top300 PCC genelist

Functional Module

Module ID	Function Annotation

Protein Structure

Pfam accession	Pfam name	Alignment start	Alignment end	E-value
PF06012.13	DUF908	85	362	5.60E-41
PF06025.13	DUF913	422	792	1.90E-92
PF00627.32	UBA	1301	1338	1.70E-07
PF14377.7	UBM	2666	2693	4.70E-10
PF14377.7	UBM	2707	2736	9.70E-11
PF14377.7	UBM	2743	2773	6.20E-07
PF00632.26	HECT	3517	3827	5.60E-89

Protein Sequence

>GWHPAAZE011935
MKLKRRRALEVPPKIRSFINGVTAVPLENIEEPLKSFVWDFDKGDFHHWVDLFNHFDSFFEKYIKSRKDLQVEDNFLESDPPFPREAVLQILRVIRIILENCTNKHFYSSYEHHLSSLLASTDADVVEACLQTLAAFLKKTIGKYTIRDASLNSKLFAFAQGWGGKEEGLGLLACAMQNGSDPIAYELGSTLHFEFYASDELSDERSATEQPTEGLQIIHLPNISNCLESDLELLNKLVVEYKVPPSLRFSLLTRLRFAKAFSSLSARQQYTCIRLYAFVVLVQACGDTDDLVSFFNTEPEFINELVMLLSYEDAVPEKIRILSLLSLVALCQDRSRQPTVLTAVTSGGHRGILSSLMQKAIDAVVSNSSKWSVVFAEALLSLVTVLVSSSSGCSAMREAGFIPTILPLLKDTDSQHLHLVSTAVHILEAFMDYSNPAATLFRDLGGLDDTISRLKVEVSHVENGSKQQGISNELETSECSSSQVVPGTSTELDSMQPLYSEALVAYHRRSLMKALLRAISLGTYAPGSTSRVHGSEESLLPQCLCIIFKRAKDFGGGVFSLAATVMSDLIHKDPTCFGTLEAAGLPSAFLDAIMDGVLCSAEAITCVPQCLDALCLNNNGLQAVKDCNALRCFVKIFTSRMYLRVLTGDTPGSLSSGLDELMRHASSLRGPGVDMLIEMLNALAKLGSGSEAASSSSVDSPRCSTPVPMETDTDDRNLVASDDRVENSEQLPEPSSDASLLNVESFLPDCISNVARLLETILQNSDTCRIFVEKKGVEAVLQLFTLPLLPLSVSVGQSISAAFKNFSPQHSAYLARAVCSFLREHLKSTNELLGSIGGTQLAKVEAATRTKLMRYLSSLEGILSLSNSLLKGTTTAVVSELGNADADVLKDVGRAYREILWQISLSCDSKADEKLTNEVEPDNADTNVATNTAGRESDDDVNVPAVRYMNPVSIRNTSHPQWGVEREFLSVVRSGEGFSRRSRHGLARIRGGRTGRHLESLHMEPEVPLNTTDTSPLDLKKKSPEVLVLESLNKLASTLRSFFVALVKGFTSPNRRRAETGTLSAASKSIGTALAKVFLEALSFSGYSTSVGLDMSLSVKCRYLGKVVDDMVVLTFDNRRRTCYTVMINNFYVHGTFKELLTTFEATSQLLWTLPYSLPTSGTDHEKSDEGIKSSHNSWLLDTLQSYCRVLEYFVNSSLLLSPTSAFQSQLLVQPVAVGLSIGLFPVPRDPEVFVRMLQSQVLDVILPVWNHPMFPTCSAGFITSIVSLVTHVYSGVGDVKRNRNGVSGSTNQRFMPPPPDEATIATIVEMGFTRARAEAALRRVETNSVEMAMEWLFSHAEDPVQEDDELARALALSLGSSSDTSKVENTDKSPDLLTEEGQTKAPPVDDILAATMKLFQNCDSMAFPLTDLLATLCNRNKGEDRARVVSYLIQQLKLCPLEFSKDTSALCMISHTLALLLSEDGGTREIAAQNGIASVAIDILTNFKARTDLGNELLVPKCISALLLILDNLLQCRPKISSNTTEVTPAGSLPDSSGEHTSLPVPQEDSEKKSTPMALENDTSTAFEKIFGNSTGYLTFEESGRLLVVACDLIKQHVPAIVMQAVLQLCARLTKTHALALQFLENGGMPALFSIPKSCFFPGYDVVASAIIRHLIEDPQTLQTAMELEIRQTLTGNRHAGRVTPRTFLTSMAPVISRDPEVFMKAATSVCQLESSGGRTVVVLSKEKEREKDKSKAPGVELGVSPNETVRIPENRTPDGPGKCAKGHKKIPANLTQVIDQLLEIVLRYPSPKSEEDCLSYSSAMEVDELATKVKGKSKVDETRKVESESLSERSAGLAKVTFVLKLLSDILLMYVHAVGVILKRDLEMCQLRGSNLECSGHGGILHHVLHRLLPLTIDKTAGPDEWRGKLCEKASWFLVVFCGRSGEGRRRVINELVKALSSFSNSESNSSKRCLLPDKKVLAFVDLVYSILSKNSSSSNIPGSGCSPDIAKSMIDGGIVQCLSSILKVMDLDHPDAPKVANIILKALESLTRAANASEQLSKTDAMNKKKSIESGERSDDQVMTNSVTQTIEPNQNSSRHEGADVEDTEQQLQGSSQNEGEHHSVPNQSLEQDMRREVEENVVANQPVELGMDFMREEMEDGGALHNTDQIEMTFHVENRGDDDMADEDDDMGDDGEDDEDDDDGEDEDEDIAEDGTALMSLADTDVEDHDETGLGDEYNDDMVDEEDDDFHENRVIEVRWREALDGLDHLQVLGQPGAESGLIDVAAEPFEGVNVDDLFGLRRPLGFDRRRQTSRTSFERSVTEGNGLQHPLLLRPPSQSGDMVSMWASGGNSSRDLEALSAGSFDVAHFYMFDAPVLPFDHLPASVFGDRLRAAPPSLADFSVGLESLRVPGRRGPGDGRWTDDGLPQAGGQAAAIAQAVEEHFVSQLRGTPASGSAERQSHSSGPPEKSSDLPLANDSQLAVEVDYNGAQQSEGQNCEVGPEAMHHEDSPMGQEQASPDVVVEQAGEGLQANEPMSTVAVNQTPNGLDIMDVGEGNDPNGSEQVESTILTSSMLPQGDSEHERSSQVHPATDTTSTTDRQTSNDVLVNSSGDMPNLGDSHASSVQGSVDVEMNGNETEGNQTGHLQPSEVNREEPSSLQNAAVTQDGDQVGGTGLNDEAPNANGIDPTFLEALPEDLRAEVLASQQSQPAPQAPATYVPPAAEDIDPEFLAALPPDIQAEVLAQQRAQRVAQQAEGQPVDMDNASIIATFPADLREEVLLTSSEAVLSALPSPLLAEAQMLRDRAMSHYQARSLFGGSHRLNNRRNGLGFDRQTVMDRGVGVTIGRRPASAHAESMKLKEVEGEPLLDSNALKALIRLLRLAQVIFITLGLLTGILIRELVHSYQSLVEDVIEKEKEVVVPGGFRFGRKSERCLERERDTGAHQPLGKGLLQRLLLNLCAHSCTRAILVRVLLDMIKPETEGPAGRLTTVNSQRLYGCQSNVVYGRSQLLDGLPPLVLRRILEILTYLATNHSAVANILFYFDPLLIPESSNPNFLETKKDKGKEKIVEGDLSNPVQCHHEGDVPLILLLKLLNQPLFLRSIAHLEQVMGLLQVVVCTAASKLNRQTQSELAAASSQNLSGNEAASDVPKDSPSLDVESNRADKSGGDGVSTSDGQRSNKMYDIFLQLPQPDLHNLSSLLGHEGLSEKIYMLAGEVLKKLASVAAPHRKFFIIELSDLAHSLSSSAVSELVTLRNTNMLGLSAGSMAGAAILRVLQTLSSLISPTTDGNRSMESDGEQEEHATMWKLNVALEPLWQELSHCISTTEIQLAQSSFSSIVSTVNVGEPVQGSSSLSPPLPPGAQRLLPFIEAFLVLCEKLQANNSLTQQHDHADATAREVKELPGSFSPLSTKVDGAVTFARFAEKHRRLLNAFVRQNPGLLEKSLSMMLKAPRLIDFDNKRAYFRSRIRHQHEQHLSGPLRISVRRAYVLEDSYNQLRMKPTQDLKGRLNVHFQGEEGIDAGGLTREWYQLLSRVIFDKGTLLFTTGGNDATFQPNPNSVYQTEHLSYFKFVGRVVAKALFDGQLLDVYFTRSFYKHILGVKVTYHDIEAVDPDYYKNLKWMLENDVSEIPALTFSMDADEEKHILYEKTEVTDYELKPGGGNIRVTEETKHEYVDLVAEHILTNAIRPQINSFLEGFNELIPRELISIFNDKELELLISGLPEIDLDDLKSNAEYTGYTAASCVVQWFWEVVKSFNKEDMARLLQFVTGTSKVPLEGFKALQGISGPQRFQIHKAYGAPERLPSAHTCFNQLDLPEYSTKEQLQERLLLAIHEASEGFGFG

Gene family

Gene family	subfamily
Ubiquitin Family	HECT

KEGG pathway

KO	Enzyme	pathway	mapID
--	--	--	--

Gene Ontology

GO term	Ontology	Name
GO:0004842	molecular_function	ubiquitin-protein transferase activity
GO:0005515	molecular_function	protein binding

Expression pattern

Expression pattern detail

SRP	Sample	Description	TPM
SRP075780	SRR3591705	youngest leaf	44.387
	SRR3591706	second leaf	18.637
	SRR3591707	mature leaf	20.740
	SRR3591708	Shoot apex	20.589
	SRR3591709	Stem	52.650
	SRR3591710	White floral bud	38.122
	SRR3591711	White flower	45.138
	SRR3591712	Green floral bud	31.275
	SRR3591713	Yellow flower	26.766
SRP173429	SRR8316895	Juvenile bud stage	17.622
	SRR8316896	Juvenile bud stage	22.542
	SRR8316897	Juvenile bud stage	12.526
	SRR8316894	Third green stage	13.115
	SRR8316900	Third green stage	22.792
	SRR8316901	Third green stage	23.444
	SRR8316898	Complete white stage	3.380
	SRR8316899	Complete white stage	16.293
	SRR8316903	Complete white stage	18.865
	SRR8316902	Silver flowering stage	10.461
	SRR8316904	Silver flowering stage	20.766
	SRR8316905	Silver flowering stage	8.406
	SRR8316906	Gold flowering stage	28.271
	SRR8316907	Gold flowering stage	27.028
	SRR8316908	Gold flowering stage	26.753
SRP132670	SRR6706286	Control	25.302
	SRR6706287	Light intensity 50%	29.444
	SRR6706288	Light intensity 20%	31.314
CNP0000432	CNS0095592	Slightly white alabastrum(diploid) 1	11.221
	CNS0095593	Slightly white alabastrum(diploid) 2	10.480
	CNS0095594	Slightly white alabastrum(diploid) 3	11.050
	CNS0095595	Whole white alabastrum(diploid) 2	10.260
	CNS0095596	Whole white alabastrum(diploid) 3	8.253
	CNS0095597	Whole white alabastrum(diploid) 4	10.106
	CNS0095598	Silvery flower (diploied) 1	15.899
	CNS0095599	Silvery flower (diploied) 2	15.192
	CNS0095600	Silvery flower (diploied) 3	35.566
	CNS0095601	Golden flower (diploid) 1	12.981
	CNS0095602	Golden flower (diploid) 2	34.786
	CNS0095603	Golden flower (diploid) 3	33.968
	CNS0095604	Slightly white alabastrum(tetraploid) 1	14.274
	CNS0095605	Slightly white alabastrum(tetraploid) 2	11.146
	CNS0095606	Slightly white alabastrum(tetraploid) 3	29.902
	CNS0095607	Whole white alabastrum(tetraploid) 1	9.819
	CNS0095608	Whole white alabastrum(tetraploid) 2	8.324
	CNS0095609	Whole white alabastrum(tetraploid) 3	22.821
	CNS0095610	Silvery flower (tetraploid) 1	32.627
	CNS0095611	Silvery flower (tetraploid) 2	35.012
	CNS0095612	Silvery flower (tetraploid) 3	28.030
	CNS0095613	Golden flower (tetraploid) 1	10.734
	CNS0095614	Golden flower (tetraploid) 2	23.179
	CNS0095615	Golden flower (tetraploid) 3	38.258
CRA001975	CRR073297	Stem 1	28.072
	CRR073298	Stem 2	23.577
	CRR073299	Stem 3	15.564
	CRR073300	Leaf 1	26.627
	CRR073301	Leaf 2	21.433
	CRR073302	Leaf 3	14.207
	CRR073303	Juvenile bud 1	18.845
	CRR073304	Juvenile bud 2	10.179
	CRR073305	Juvenile bud 3	36.641
	CRR073306	Third green 1	11.807
	CRR073307	Third green 2	6.486
	CRR073308	Third green 3	14.671
	CRR073309	Second white 1	7.776
	CRR073310	Second white 2	13.861
	CRR073311	Second white 3	20.588
	CRR073312	Silver flowering 1	18.632
	CRR073313	Silver flowering 2	20.547
	CRR073314	Silver flowering 3	18.072
	CRR073315	Gold flowering 1	6.345
	CRR073316	Gold flowering 2	13.733
	CRR073317	Gold flowering 3	9.697
	CRR073318	Tawny withering 1	15.904
	CRR073319	Tawny withering 2	14.202
	CRR073320	Tawny withering 3	12.118