Fungal Genomics

at Utrecht University

General Properties

Protein IDPro_DTO377G3_2|g3372.t1
Gene name
Locationscaffold_05:497616..498702
Strand-
Gene length (bp)1086
Transcript length (bp)1086
Coding sequence length (bp)1086
Protein length (aa) 362

Your browser does not support drawing a protein figure.

PFAM Domains

PFAM Domain ID Short name Long name E-value Start End
PF13637 Ank_4 Ankyrin repeats (many copies) 1.1E-04 305 351
PF13606 Ank_3 Ankyrin repeat 1.7E-03 304 330

GO

GO Term Description Terminal node
GO:0005515 protein binding Yes
GO:0005488 binding No
GO:0003674 molecular_function No

SignalP

[Help with interpreting these statistics]
SignalP signal predicted Location
(based on Ymax)
D score
(significance: > 0.45)
No 1 - 33 0.45

Transmembrane Domains

(None)

Transcription Factor Class

(None)

Expression data

Analysis 1: Genome-wide gene expression in conidia of Penicillium roqueforti during growth at various temperatures and for various amounts of time. Published in Punt et al., 2020.

Click here for more information

Sequences

Type of sequenceSequence
Locus Download genbank file of locus
The gene with 5 kb flanks (if sufficient flanking sequence is available). For use in cloning design programs. NOTE: features (genes or exons) that are only partially contained within the sequence are completely excluded.
Protein >Pro_DTO377G3_2|g3372.t1
MSSKQQRQQQLMLNARQCQMQMMAAKQQPSTGCNSGNPLQQQMQPRSGTMGSKYDDLPILEPTDVIFISEDPKST
GLVPAFFGSFESACQHGTLSTIQSIVSSKNLTPAFLHHGLTRALRSGNIEIARYLLDSGAPIVRETPSNIFFVPL
EQQIALFELFTQYNWTPNTPGYYGSVLLPRIIKNTPLLRWFLDHGANPNLGVQQTTHDRCGGPDTSSCAALEAAA
ATGGVEAVRMILDAGANIQNGVPLHYAAGACPPGTNPHAGKVVPSREFDTSRIPVMALLVGRGADVNQREESRHM
VAQYAIVYAAMAGAVERVKWLLEHGADPYIKGNWGSAAEYALTSGNEEITKVIGEFTLKKA*
Coding >Pro_DTO377G3_2|g3372.t1
ATGTCTTCAAAACAACAGCGTCAACAGCAGCTAATGCTAAATGCACGCCAATGTCAGATGCAGATGATGGCTGCT
AAGCAACAACCAAGCACCGGCTGCAACAGTGGCAATCCTCTACAGCAGCAAATGCAGCCTCGATCAGGGACAATG
GGGTCCAAATATGATGACCTACCCATACTGGAGCCCACTGATGTTATCTTTATTTCTGAAGATCCTAAGTCGACT
GGTCTAGTTCCCGCCTTCTTCGGATCTTTTGAATCCGCCTGCCAGCACGGCACCCTCTCCACCATTCAGTCCATT
GTCTCATCCAAGAACCTCACACCTGCTTTTCTCCATCATGGTCTTACACGTGCTCTACGCTCCGGAAATATTGAG
ATTGCTCGCTATCTCCTAGATAGTGGCGCACCAATAGTTCGCGAAACTCCAAGCAATATCTTCTTTGTACCTTTG
GAACAGCAAATTGCCCTCTTTGAGCTCTTTACCCAGTATAATTGGACTCCCAATACACCAGGCTACTATGGTAGT
GTCCTGCTCCCTCGAATTATCAAGAACACCCCTCTTCTTCGTTGGTTCCTCGACCACGGAGCCAATCCCAACCTT
GGGGTGCAGCAGACCACCCATGACAGGTGTGGTGGGCCAGATACTTCCTCGTGTGCTGCACTTGAGGCAGCTGCA
GCTACTGGAGGAGTTGAGGCTGTGCGTATGATTTTAGATGCGGGTGCTAACATCCAAAACGGTGTACCACTACAC
TACGCCGCCGGGGCTTGTCCTCCCGGTACGAATCCACATGCTGGGAAAGTGGTACCAAGCCGTGAATTTGATACT
AGCAGAATTCCAGTGATGGCACTACTAGTCGGTCGCGGGGCTGATGTAAATCAGAGAGAAGAGTCACGACACATG
GTCGCGCAGTATGCGATTGTATATGCGGCGATGGCAGGAGCAGTTGAGCGGGTCAAGTGGTTGTTGGAGCATGGA
GCAGATCCATATATAAAAGGGAACTGGGGCAGTGCAGCTGAGTATGCACTTACCTCGGGGAATGAAGAGATAACA
AAGGTCATTGGGGAATTTACCCTAAAAAAAGCTTGA
Transcript >Pro_DTO377G3_2|g3372.t1
ATGTCTTCAAAACAACAGCGTCAACAGCAGCTAATGCTAAATGCACGCCAATGTCAGATGCAGATGATGGCTGCT
AAGCAACAACCAAGCACCGGCTGCAACAGTGGCAATCCTCTACAGCAGCAAATGCAGCCTCGATCAGGGACAATG
GGGTCCAAATATGATGACCTACCCATACTGGAGCCCACTGATGTTATCTTTATTTCTGAAGATCCTAAGTCGACT
GGTCTAGTTCCCGCCTTCTTCGGATCTTTTGAATCCGCCTGCCAGCACGGCACCCTCTCCACCATTCAGTCCATT
GTCTCATCCAAGAACCTCACACCTGCTTTTCTCCATCATGGTCTTACACGTGCTCTACGCTCCGGAAATATTGAG
ATTGCTCGCTATCTCCTAGATAGTGGCGCACCAATAGTTCGCGAAACTCCAAGCAATATCTTCTTTGTACCTTTG
GAACAGCAAATTGCCCTCTTTGAGCTCTTTACCCAGTATAATTGGACTCCCAATACACCAGGCTACTATGGTAGT
GTCCTGCTCCCTCGAATTATCAAGAACACCCCTCTTCTTCGTTGGTTCCTCGACCACGGAGCCAATCCCAACCTT
GGGGTGCAGCAGACCACCCATGACAGGTGTGGTGGGCCAGATACTTCCTCGTGTGCTGCACTTGAGGCAGCTGCA
GCTACTGGAGGAGTTGAGGCTGTGCGTATGATTTTAGATGCGGGTGCTAACATCCAAAACGGTGTACCACTACAC
TACGCCGCCGGGGCTTGTCCTCCCGGTACGAATCCACATGCTGGGAAAGTGGTACCAAGCCGTGAATTTGATACT
AGCAGAATTCCAGTGATGGCACTACTAGTCGGTCGCGGGGCTGATGTAAATCAGAGAGAAGAGTCACGACACATG
GTCGCGCAGTATGCGATTGTATATGCGGCGATGGCAGGAGCAGTTGAGCGGGTCAAGTGGTTGTTGGAGCATGGA
GCAGATCCATATATAAAAGGGAACTGGGGCAGTGCAGCTGAGTATGCACTTACCTCGGGGAATGAAGAGATAACA
AAGGTCATTGGGGAATTTACCCTAAAAAAAGCTTGA
Gene >Pro_DTO377G3_2|g3372.t1
ATGTCTTCAAAACAACAGCGTCAACAGCAGCTAATGCTAAATGCACGCCAATGTCAGATGCAGATGATGGCTGCT
AAGCAACAACCAAGCACCGGCTGCAACAGTGGCAATCCTCTACAGCAGCAAATGCAGCCTCGATCAGGGACAATG
GGGTCCAAATATGATGACCTACCCATACTGGAGCCCACTGATGTTATCTTTATTTCTGAAGATCCTAAGTCGACT
GGTCTAGTTCCCGCCTTCTTCGGATCTTTTGAATCCGCCTGCCAGCACGGCACCCTCTCCACCATTCAGTCCATT
GTCTCATCCAAGAACCTCACACCTGCTTTTCTCCATCATGGTCTTACACGTGCTCTACGCTCCGGAAATATTGAG
ATTGCTCGCTATCTCCTAGATAGTGGCGCACCAATAGTTCGCGAAACTCCAAGCAATATCTTCTTTGTACCTTTG
GAACAGCAAATTGCCCTCTTTGAGCTCTTTACCCAGTATAATTGGACTCCCAATACACCAGGCTACTATGGTAGT
GTCCTGCTCCCTCGAATTATCAAGAACACCCCTCTTCTTCGTTGGTTCCTCGACCACGGAGCCAATCCCAACCTT
GGGGTGCAGCAGACCACCCATGACAGGTGTGGTGGGCCAGATACTTCCTCGTGTGCTGCACTTGAGGCAGCTGCA
GCTACTGGAGGAGTTGAGGCTGTGCGTATGATTTTAGATGCGGGTGCTAACATCCAAAACGGTGTACCACTACAC
TACGCCGCCGGGGCTTGTCCTCCCGGTACGAATCCACATGCTGGGAAAGTGGTACCAAGCCGTGAATTTGATACT
AGCAGAATTCCAGTGATGGCACTACTAGTCGGTCGCGGGGCTGATGTAAATCAGAGAGAAGAGTCACGACACATG
GTCGCGCAGTATGCGATTGTATATGCGGCGATGGCAGGAGCAGTTGAGCGGGTCAAGTGGTTGTTGGAGCATGGA
GCAGATCCATATATAAAAGGGAACTGGGGCAGTGCAGCTGAGTATGCACTTACCTCGGGGAATGAAGAGATAACA
AAGGTCATTGGGGAATTTACCCTAAAAAAAGCTTGA

© 2022 - Robin Ohm - Utrecht University - The Netherlands

Built with Python Django and Wagtail