Bhi04G000713 (gene) Wax gourd (B227) v1

Overview
NameBhi04G000713
Typegene
OrganismBenincasa hispida (Wax gourd (B227) v1)
DescriptionProtein cereblon
Locationchr4: 21957824 .. 21963902 (-)
RNA-Seq ExpressionBhi04G000713
SyntenyBhi04G000713
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.
CACGACTAAAGGCAATTCATTTTGTTACAGTTGAGGGGAGAAACGCATCACCTATTGCAGTTGGCGCCATTTGCCGATGCGGCAAAGCTCGATCACATTGTCGACGGAGAAATTTCTGTGAGATTTGATCCATTGAATAATCTATCATCATTGTATTCAGTGAGCTGAGATTGGTGGCGGTTCGCCTAAGCTGCTCCGGTAGATCAATGAAATTCTCAGTTTCCTGTATACAAGAGCCCTAAACAATGGAGGACCAAAGGCTGTTGGAGAGAGAGAGGCACCAGATCGAGCAGATTCTTCAGCTTGATAATGAGGAGTTGCAAGTTGAGGAAGTTGACTACCTCCACGACTCCGATGATGACGGTGATGCTATGTAATGTTTATATCCTCCGATTTGATTGTCGCTCATACCCATAGGGTTTTTGCGCACTACACTGATTTGGAACTATACCCTTAGTTCTTTAATCTCTGAATTTCAATTTGAAGAATGCTTAGATTAGATTATTTTTTGGGATTTAAGTTTCAAGTCCAAATGCTAGCGTCGGTTCACTACATGGTTCACCTCTTACGTGTAGAGACACTGTAGATGATATTGCTTTATAACCAAGTCAAAGGAAAATGGCTCTCCGTAATCAGTTGTTGTACATGATATGGTTACTTCCTTTTGCCACTGCCGATTGCCGAAACTCTTGAAGAAGTTGAAACCGATGTAGAGATTTGAGAATAGTCCGTTCTTTTAGTTATATGTTTTGTTTCATACTCTTTGCGAAGCCACCAGGAAACTTAGAAAGGGAAGTGGCTATCAATTCAATTATTTTCTTTCATTAAGTTAAGAAGGGATACCGGATATCTATTTAAGGCCTTCTACAGACAGACTGGCATAATTGTCAGATTCCATGCTTCTATTAGTTTCTCTCCTACTGAAATTACAAGGTTATTCTAGTCGTTTGCTAGATTTAGTCATCCGCTCAACAAAGGTTGATTTTATTAATGGATTGAATTGCTTTTATCTGTGTTCAATATACTTGAATTGCTTTTATCTGTGTTCAATATACTTTCTTTGATGTCACAAATTCATAACGCCCTCCTTTTACATTTTCTGCTGTTGTTGTTCTTATTATTACTGATTCATTATTATTTGTGAGTTGCACTGACATCATCCTGTTTTTTCCGGCTGTATCAAAGTAGTAATGGTCATGGTGGTACTGAGGCCTTTGCTGAATTTACTTTCAATTCCTATTTGGCATCTTTGCACACATATCTTGGTGGTATGAGTTCTTATTTGCCGATTAATATTTCAAGTATTCATGTTAATTCCATTTGGGGTACAGTTTTACTAAGATCTCCTGGGGTTTCATGTAACAGAGGTTGAGGATGCTCATCACAGAATGGCTTTCTTGGATGGTGGTGCCATCTTGAACCTCCCTGTATTTTATCTTGAAGGTATTTGTCTGTTTATGCATCCTTATTCTGCTTCAAGCATTAATTTCATGGGTTTAAGTACTCTAATTTGATTAGGATAGTTACAATCTTCCCCTCTTTAATTTTTGAAAACTACAAATCATATCTTCAAATATCATTGTATTCTAAAGAATCAAAATCTGAAAATTATTCAACTTTGTTAAAGTCATTGTAAATATAGGAACTGTTATCTTCCATGGATTAGCAAAATGCAACAGCAAGGTATTCTTATGCTTGGAGAGATCTGATTAAATAGATTCACACTGTGACCATAAATGTTCAAATTTATAGTTCAGCATGCCTAGTTATCATCTGAAGCAGCATGCACTTCACCTTCTTCCTCATGTGTCTAGATGACTTGCAGGCCCTGCATGCTTTTCTCAAGAGTTTAGATATAATTGTTCACAAAATGAACATAGTTCAATTGAGGAGTTCCAACATTGAGCAGACAAGTTAATTTTTCATGATTGTCAACTGGCATCTATAACCATCCTGCGGATACTTTTTCCTATCTTGTCTCAGTATGTCATGTGGAATTCACATATGTCTCAGGTGTTGTATTGTTCCCAGAAGCTACTCTACCTCTCAGGGTGATACAATCAAATTTTATTGCTGCCATTGAGAGAGTATTGACTCACTTTGACACTCCTAATACCATAGGTGTGGTATGTGCTCAAATTTAGGCATTGGCATATAATTTTTAAAGATTGCTTGAAATCCTTTATTGGTAGCTCAAGCAAGATTCAATATTTATTTCAGGTTCATGTCTCAGTGGATTCTGATAATGAAAGACTACGTTTTGCGAATGTTGGGACAACTGCAGAGGTATTATTGCTTGATTTTTTTTCTCCCTGGTCTTTTACTTTTCTGGCATTTTTCCAAAAGCATTTAATATCTGCAGTTTGGCCTCTTTGCTAAAATTTGGGATTCTTTAGCTTCTATCTACATTTTAATGTAAAGGCTTCCATACTTCTAATGACATGCATCCATATACCTACCCACCCTCTCTATTACAGATTCGGCAGTTTCGAAGGTTGGAGGATGGTTCACTTAATGTTCTTGCTAGAGGGAAGCAACGTTTTCGTCTTAGACGCCGTTGGATTGATGTTGAAGGAGTGGTTAGAGCAAATTGTTGTTCTTGAATCATTTGTATTATTTTCTTCTTTTTTTTTAATAAGTTTGCTATCTTTTTAGCCATGTGGAGAAGTTCAAATTATCCAGGAAGATTTGCCATTAAGGACCCCACGGGATGCTTTTGGAGACTTGGCTCCACGGAGTACTGTTCAGCGGCACAGTCTCTCATGTGCATTGGCTTCATATACTTCTTGCTCTAGATCATTTACGTCCAGGGATGAGGATGATTCTGCCTCTAATTCAGAAGAAAGCTTTGAACGTGAGCTTTCATTGAGAGAGAGGAAAATCCACCAAGCAGCAATTGATTCCAGTGAATCTTGTAGCGATGAGGAGATATCTGGGTCAGAGGCAGAACACCAACATGCAATGTCACATCTAAATGACTCTGATTCCGTAGGGTCAATGCATTCTGACTGTGAGAAGGAAAATGAGAAACCTGCCTCTGACATAGGAAAAAGTTCCACATCAGCTAGGGAATCTAGCGAGAGGAAAGAACTCAAAAGATGTCAAAGAAACTCAAGTTTTAATCTGATGCACAGGGCTTCAAAAGCATTTTGGCCATATTGGGTTTATTCTATGTATGATTCATATTGTCTTGCTCAAAAAGCAGCAGGTGATCAGAGTTACTTTCCTTCTCCCTCAGCCTTTTAACTTACTTTGCTCAATGAAAGCTTAGTTTCTTACCCTTAAACTTAGTCGTTCTTTCCTTTTTCTTTTTCTTGGTTTCCATGGTCAATTTAGATTTATGTTTCACATGTTGCTATGATCATTTGGTGGTAAAAGTGCATGACTGAAGTCTGAAGACTAAAACACATGAAATGGAAACAAAAGAAAAGGAAAACTAGAAAGGTGCATGACTGAAGTCTGAAGACTAAAGTGAAAACATATGAAAAGAAACCAAAAGAAAGAAAAGGAAAACTAGAAAGGCGGGATTACAACACAGAGAGAAAATTAATGAAATTTCCGAATGAGAATTTGGAAGGTCAAATGTAAATAAAATTTAATTAATTACTTCTTAAAAATGGGTGGGTGAGCAAGTGAGATGTGTGTTTAGCCTTGTTACAAATGGTCAAGTATTTTAATGTTAATCATTTTTATTAGTACTTATTTATTTGAAATTAGTCAACGTTTTATTCACGTTAATACATAATAGGAATATTTGATTATTTCTCTATGTTAGGTTCTTGGTCATACTCATATATTTGATTTTATATATCTTTAAGACTTTGACATTTGGATGTTTTTACAATATATGCTTTTGTATAAATTATTTATTCATTGCACCTCGCTTCATTCAAGCATAGTCTTTTTGTCACCTCCCGTCTTGAGGAGATATAGGGACTTGTCGTCTTGACATGTGGCTTGCACTTTGAAAACAATGTCCAGCATTATTTATTGATATATATGTATATCCTATCTTTCTGTTTGCTGTTTTCTATATATCAGGACACAGCATTCTTTTTCTACACTATATCAAGAAAATTAGAGGCATGTGTGTTGGTTCTGTTTTTTGATTCATTATCATCACTATTTGCAGCTATGTGGAAGCAGATAGTGGGGGTACCGAACATGGATGGTTTTGTGAAGAATCCAGACATCTTATCCTTCTATATTGCTAGTAAGATTCCAGTTTCTGAATCTACTAGACAGGAGCTCTTGGAGATTGATGGAATTTCATATAGATTGCGTCGGGAAATTGAGTTACTCAAGTCTATTGATATCATCCAATGTAAAAATTGCAAGGTAGTCAATAGTTTCTAAGTATGTATGCTTGCATTCACCCATTCAACTTTTTGCATCTGCCCTCAATTTATACTTCCATATTGCACTGTGTGTAATCATTCTAAGGCATACTTAGCTGGTCATTGTTTTTATATGTAATTTCTTCTTATGCAGACAGTTATAGCCAAACGCAGTGATATGTTGGTGATGTCTACTGAAGGTCCACTCGGTGCTTATGTGAACCCACATGGTTATGTGCATGAAATAATGACTCTTTATAGAGCAAATGGCTTAGCACTTAGAGGACGAGCTGAGACAGAATACAGTTGGTTCCCTGGGTATGAGATTGATCTAACTTCCCTCTTTGAACCTATGAGTGCCCTTTTCTCTCTTTCTTAAATAGAAGTTGACCATGGCTTGGTTACGAAAAAGTAAGTTTTTGGGAGAAAAATTTAATGCATTCACTAAAACTTTAAGTTACATGGAGATATAATACCAGGAAAGTACCAAGGAAAGTACGTAAAAGGAAACTAGCTACATTAAACAAAGAATATTAACTAATAAATGAAAGATAAATAGACTAGAATCTGGTCTAAATAAAGGTAAAATACAAATTAAAAAAGGAAGTAAATCTACCAAAAGTAGTTATTGGGCTTATTTTGTTTCTAACACTACAACGATCACAATAATTGCGAGGTGGGAGATTGAACCTCCGACCTCTTAGGATGGAGCGCATGCCAATACCACTAAGCCAAACTTTCTTTGGCTTGTTTTTAACACTACATTAAACTTGAGCATGAAGTTCAGTCAACCATTAGTTCCCACTTGGATCTTTTTGGGAGGAGGAAAATGGTTTCTAGGTTAATTTGGACAGCTATCAGCTGTCAACTTACAATAATGGCACTTCCCAAGAATTCATCTGGGAGCTGGAACTTTGGCAGTTTGACCTCAAATAGGTTATTGCTTGATAATTATGAATCAAGACAATATTTCTTGTGGAAATCCATATATGTAGTTGAGAATAGATACTAAGGCAAATATTGACTGGTTATGAGAAAATAAGATCTATTTATGGATATTTAGTTATTTTTAGTACAAGTGAGCCAGGGATATAGAGATTTGAATCTTCGGCCTTAAGAGAAGGAGTATGTGTCAATTACTGTTGAGCTATACTCATGATTGTATAATTTAAGATGAACATGAAAATGATTGTTTTAGGTTATCTTTTTAAATCCTTAATCATGCAACTGTGAAGGCTGAGACTCTTAACTTTTGTTCTTTTAGGTACGCGTGGACGATCTCAATCTGTGCAACTTGTGAAACTCAATTAGGATGGCTTTTTACTGCCACAAATAGGAATCTGAAACCCAGATCGTTTTGGGGAATACGAAGCTCCCAGTTAGCTGATGTCACGCGTTAATGTGTCGACTTTGGTTAGCATTTAAAAAAAAAAAAGAAAAGAAAAATCCTTCTTACGAGTCTGTAGAGAGTGTTCATGAAAACTTTGCTTCTTTAGATGAGTGCTTCTGTTGCAATAGCTTTTAAGAGTTCACGCGAGCAACTGCTCTGCCTCTCCAATCTATGTAGACTATATTCATGTGCGACATGTAATCTAATAAAACAGTTTATTGTAGCATGAGAAATTGCTGGGTCGAACATATTTCAGTTAATCAAACATGTCAAATTTTGCAGGGTGTGGGTTGAACATCTCGTATAAGTGCAATTTTATTATAATTTGGTTAAATTGCATTTTGACCCTAAA

mRNA sequence

CACGACTAAAGGCAATTCATTTTGTTACAGTTGAGGGGAGAAACGCATCACCTATTGCAGTTGGCGCCATTTGCCGATGCGGCAAAGCTCGATCACATTGTCGACGGAGAAATTTCTGTGAGATTTGATCCATTGAATAATCTATCATCATTGTATTCAGTGAGCTGAGATTGGTGGCGGTTCGCCTAAGCTGCTCCGGTAGATCAATGAAATTCTCAGTTTCCTGTATACAAGAGCCCTAAACAATGGAGGACCAAAGGCTGTTGGAGAGAGAGAGGCACCAGATCGAGCAGATTCTTCAGCTTGATAATGAGGAGTTGCAAGTTGAGGAAGTTGACTACCTCCACGACTCCGATGATGACGGTGATGCTATTAATGGTCATGGTGGTACTGAGGCCTTTGCTGAATTTACTTTCAATTCCTATTTGGCATCTTTGCACACATATCTTGGTGAGGTTGAGGATGCTCATCACAGAATGGCTTTCTTGGATGGTGGTGCCATCTTGAACCTCCCTGTATTTTATCTTGAAGGTGTTGTATTGTTCCCAGAAGCTACTCTACCTCTCAGGGTGATACAATCAAATTTTATTGCTGCCATTGAGAGAGTATTGACTCACTTTGACACTCCTAATACCATAGGTGTGGTTCATGTCTCAGTGGATTCTGATAATGAAAGACTACGTTTTGCGAATGTTGGGACAACTGCAGAGATTCGGCAGTTTCGAAGGTTGGAGGATGGTTCACTTAATGTTCTTGCTAGAGGGAAGCAACGTTTTCGTCTTAGACGCCGTTGGATTGATGTTGAAGGAGTGCCATGTGGAGAAGTTCAAATTATCCAGGAAGATTTGCCATTAAGGACCCCACGGGATGCTTTTGGAGACTTGGCTCCACGGAGTACTGTTCAGCGGCACAGTCTCTCATGTGCATTGGCTTCATATACTTCTTGCTCTAGATCATTTACGTCCAGGGATGAGGATGATTCTGCCTCTAATTCAGAAGAAAGCTTTGAACGTGAGCTTTCATTGAGAGAGAGGAAAATCCACCAAGCAGCAATTGATTCCAGTGAATCTTGTAGCGATGAGGAGATATCTGGGTCAGAGGCAGAACACCAACATGCAATGTCACATCTAAATGACTCTGATTCCGTAGGGTCAATGCATTCTGACTGTGAGAAGGAAAATGAGAAACCTGCCTCTGACATAGGAAAAAGTTCCACATCAGCTAGGGAATCTAGCGAGAGGAAAGAACTCAAAAGATGTCAAAGAAACTCAAGTTTTAATCTGATGCACAGGGCTTCAAAAGCATTTTGGCCATATTGGGTTTATTCTATGTATGATTCATATTGTCTTGCTCAAAAAGCAGCAGCTATGTGGAAGCAGATAGTGGGGGTACCGAACATGGATGGTTTTGTGAAGAATCCAGACATCTTATCCTTCTATATTGCTAGTAAGATTCCAGTTTCTGAATCTACTAGACAGGAGCTCTTGGAGATTGATGGAATTTCATATAGATTGCGTCGGGAAATTGAGTTACTCAAGTCTATTGATATCATCCAATGTAAAAATTGCAAGACAGTTATAGCCAAACGCAGTGATATGTTGGTGATGTCTACTGAAGGTCCACTCGGTGCTTATGTGAACCCACATGGTTATGTGCATGAAATAATGACTCTTTATAGAGCAAATGGCTTAGCACTTAGAGGACGAGCTGAGACAGAATACAGTTGGTTCCCTGGGTACGCGTGGACGATCTCAATCTGTGCAACTTGTGAAACTCAATTAGGATGGCTTTTTACTGCCACAAATAGGAATCTGAAACCCAGATCGTTTTGGGGAATACGAAGCTCCCAGTTAGCTGATGTCACGCGTTAATGTGTCGACTTTGGTTAGCATTTAAAAAAAAAAAAGAAAAGAAAAATCCTTCTTACGAGTCTGTAGAGAGTGTTCATGAAAACTTTGCTTCTTTAGATGAGTGCTTCTGTTGCAATAGCTTTTAAGAGTTCACGCGAGCAACTGCTCTGCCTCTCCAATCTATGTAGACTATATTCATGTGCGACATGTAATCTAATAAAACAGTTTATTGTAGCATGAGAAATTGCTGGGTCGAACATATTTCAGTTAATCAAACATGTCAAATTTTGCAGGGTGTGGGTTGAACATCTCGTATAAGTGCAATTTTATTATAATTTGGTTAAATTGCATTTTGACCCTAAA

Coding sequence (CDS)

ATGGAGGACCAAAGGCTGTTGGAGAGAGAGAGGCACCAGATCGAGCAGATTCTTCAGCTTGATAATGAGGAGTTGCAAGTTGAGGAAGTTGACTACCTCCACGACTCCGATGATGACGGTGATGCTATTAATGGTCATGGTGGTACTGAGGCCTTTGCTGAATTTACTTTCAATTCCTATTTGGCATCTTTGCACACATATCTTGGTGAGGTTGAGGATGCTCATCACAGAATGGCTTTCTTGGATGGTGGTGCCATCTTGAACCTCCCTGTATTTTATCTTGAAGGTGTTGTATTGTTCCCAGAAGCTACTCTACCTCTCAGGGTGATACAATCAAATTTTATTGCTGCCATTGAGAGAGTATTGACTCACTTTGACACTCCTAATACCATAGGTGTGGTTCATGTCTCAGTGGATTCTGATAATGAAAGACTACGTTTTGCGAATGTTGGGACAACTGCAGAGATTCGGCAGTTTCGAAGGTTGGAGGATGGTTCACTTAATGTTCTTGCTAGAGGGAAGCAACGTTTTCGTCTTAGACGCCGTTGGATTGATGTTGAAGGAGTGCCATGTGGAGAAGTTCAAATTATCCAGGAAGATTTGCCATTAAGGACCCCACGGGATGCTTTTGGAGACTTGGCTCCACGGAGTACTGTTCAGCGGCACAGTCTCTCATGTGCATTGGCTTCATATACTTCTTGCTCTAGATCATTTACGTCCAGGGATGAGGATGATTCTGCCTCTAATTCAGAAGAAAGCTTTGAACGTGAGCTTTCATTGAGAGAGAGGAAAATCCACCAAGCAGCAATTGATTCCAGTGAATCTTGTAGCGATGAGGAGATATCTGGGTCAGAGGCAGAACACCAACATGCAATGTCACATCTAAATGACTCTGATTCCGTAGGGTCAATGCATTCTGACTGTGAGAAGGAAAATGAGAAACCTGCCTCTGACATAGGAAAAAGTTCCACATCAGCTAGGGAATCTAGCGAGAGGAAAGAACTCAAAAGATGTCAAAGAAACTCAAGTTTTAATCTGATGCACAGGGCTTCAAAAGCATTTTGGCCATATTGGGTTTATTCTATGTATGATTCATATTGTCTTGCTCAAAAAGCAGCAGCTATGTGGAAGCAGATAGTGGGGGTACCGAACATGGATGGTTTTGTGAAGAATCCAGACATCTTATCCTTCTATATTGCTAGTAAGATTCCAGTTTCTGAATCTACTAGACAGGAGCTCTTGGAGATTGATGGAATTTCATATAGATTGCGTCGGGAAATTGAGTTACTCAAGTCTATTGATATCATCCAATGTAAAAATTGCAAGACAGTTATAGCCAAACGCAGTGATATGTTGGTGATGTCTACTGAAGGTCCACTCGGTGCTTATGTGAACCCACATGGTTATGTGCATGAAATAATGACTCTTTATAGAGCAAATGGCTTAGCACTTAGAGGACGAGCTGAGACAGAATACAGTTGGTTCCCTGGGTACGCGTGGACGATCTCAATCTGTGCAACTTGTGAAACTCAATTAGGATGGCTTTTTACTGCCACAAATAGGAATCTGAAACCCAGATCGTTTTGGGGAATACGAAGCTCCCAGTTAGCTGATGTCACGCGTTAA

Protein sequence

MEDQRLLERERHQIEQILQLDNEELQVEEVDYLHDSDDDGDAINGHGGTEAFAEFTFNSYLASLHTYLGEVEDAHHRMAFLDGGAILNLPVFYLEGVVLFPEATLPLRVIQSNFIAAIERVLTHFDTPNTIGVVHVSVDSDNERLRFANVGTTAEIRQFRRLEDGSLNVLARGKQRFRLRRRWIDVEGVPCGEVQIIQEDLPLRTPRDAFGDLAPRSTVQRHSLSCALASYTSCSRSFTSRDEDDSASNSEESFERELSLRERKIHQAAIDSSESCSDEEISGSEAEHQHAMSHLNDSDSVGSMHSDCEKENEKPASDIGKSSTSARESSERKELKRCQRNSSFNLMHRASKAFWPYWVYSMYDSYCLAQKAAAMWKQIVGVPNMDGFVKNPDILSFYIASKIPVSESTRQELLEIDGISYRLRREIELLKSIDIIQCKNCKTVIAKRSDMLVMSTEGPLGAYVNPHGYVHEIMTLYRANGLALRGRAETEYSWFPGYAWTISICATCETQLGWLFTATNRNLKPRSFWGIRSSQLADVTR
Homology
The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
AT2G25740.12.0e-16456.65ATP-dependent protease La (LON) domain protein [more]
Match NameE-valueIdentityDescription
Q68EH91.6e-4140.10Protein cereblon OS=Danio rerio OX=7955 GN=crbn PE=1 SV=1[more]
Q96SW21.4e-4026.24Protein cereblon OS=Homo sapiens OX=9606 GN=CRBN PE=1 SV=1[more]
Q5R6Y22.4e-4026.24Protein cereblon OS=Pongo abelii OX=9601 GN=CRBN PE=2 SV=1[more]
Q0P5644.0e-4026.45Protein cereblon OS=Bos taurus OX=9913 GN=CRBN PE=2 SV=1[more]
P0CF653.4e-3939.47Protein cereblon OS=Gallus gallus OX=9031 GN=CRBN PE=1 SV=1[more]
Match NameE-valueIdentityDescription
A0A1S3BCJ24.2e-29094.32Protein cereblon OS=Cucumis melo OX=3656 GN=LOC103488169 PE=3 SV=1[more]
A0A5A7V9Q15.4e-29094.32Protein cereblon OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold82G0038... [more]
A0A0A0LP389.3e-29093.96Protein cereblon OS=Cucumis sativus OX=3659 GN=Csa_2G373420 PE=3 SV=1[more]
A0A6J1GIL06.4e-28392.62Protein cereblon OS=Cucurbita moschata OX=3662 GN=LOC111454509 PE=3 SV=1[more]
A0A6J1BR443.5e-28191.51Protein cereblon OS=Momordica charantia OX=3673 GN=LOC111004827 PE=3 SV=1[more]
InterPro
Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR003111Lon, substrate-binding domainSMARTSM00464lon_5coord: 88..432
e-value: 2.3E-27
score: 106.9
IPR003111Lon, substrate-binding domainPFAMPF02190LON_substr_bdgcoord: 88..431
e-value: 2.6E-43
score: 148.3
IPR003111Lon, substrate-binding domainPROSITEPS51787LON_Ncoord: 89..432
score: 21.04862
NoneNo IPR availableGENE3D2.30.130.40coord: 69..197
e-value: 9.1E-29
score: 101.6
NoneNo IPR availableGENE3D1.20.58.1480coord: 364..428
e-value: 5.7E-10
score: 40.8
NoneNo IPR availableGENE3D2.170.150.20Peptide methionine sulfoxide reductase.coord: 429..541
e-value: 1.1E-38
score: 133.9
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 303..317
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 269..335
NoneNo IPR availablePANTHERPTHR14255:SF43BNAA09G40760D PROTEINcoord: 1..537
NoneNo IPR availablePANTHERPTHR14255CEREBLONcoord: 1..537
IPR004910Yippee/Mis18/CereblonPFAMPF03226Yippee-Mis18coord: 435..534
e-value: 1.1E-8
score: 35.2
IPR034750CULT domainPROSITEPS51788CULTcoord: 433..540
score: 46.027924
IPR034750CULT domainCDDcd15777CRBN_C_likecoord: 436..536
e-value: 7.07096E-50
score: 165.108
IPR015947PUA-like superfamilySUPERFAMILY88697PUA domain-likecoord: 88..431

Relationships

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

Feature NameUnique NameType
Bhi04M000713Bhi04M000713mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0016567 protein ubiquitination
cellular_component GO:0031464 Cul4A-RING E3 ubiquitin ligase complex
cellular_component GO:0005634 nucleus
molecular_function GO:0046872 metal ion binding