Fungal Genomics

at Utrecht University

General Properties

Protein IDPro_DTO377G3_2|g1844.t1
Gene name
Locationscaffold_02:968485..969439
Strand-
Gene length (bp)954
Transcript length (bp)954
Coding sequence length (bp)954
Protein length (aa) 318

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PFAM Domains

PFAM Domain ID Short name Long name E-value Start End
PF00722 Glyco_hydro_16 Glycosyl hydrolases family 16 2.9E-09 123 270

GO

GO Term Description Terminal node
GO:0004553 hydrolase activity, hydrolyzing O-glycosyl compounds Yes
GO:0005975 carbohydrate metabolic process Yes
GO:0016798 hydrolase activity, acting on glycosyl bonds No
GO:0008150 biological_process No
GO:0044238 primary metabolic process No
GO:0008152 metabolic process No
GO:0003674 molecular_function No
GO:0003824 catalytic activity No
GO:0016787 hydrolase activity No
GO:0071704 organic substance metabolic process No

SignalP

[Help with interpreting these statistics]
SignalP signal predicted Location
(based on Ymax)
D score
(significance: > 0.45)
No 1 - 20 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.

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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|g1844.t1
MPFRQALQGIIDKADKAWAELSHHDNPQPAPSYNNPPPPIPTASKPPLAYQEQHSQPQIYWQPNLNPQVPVSANF
AHEQGQHGWGNNESQNYTDSPHNSFHSSQGDAVIVRALINHGNPDPAQKFTSARLSSHQTLSRPRGCLSARITAP
VARGIWPAFWLLPKDPFKWPEDGEVDIMEAWNGDAVNHTCLHWGNFNGEDWNKHRVLETPIPNISSPVGVRYDFI
WDEDETTGSGRLVWLIDGTPIMRAEKPPGTRKMSEFRILINIAVGGNVCQGNMPSDGYYDTVVRELAMWDAPPGG
WNEFDRAWGYSKDGNTM*
Coding >Pro_DTO377G3_2|g1844.t1
ATGCCATTCAGACAGGCCCTTCAGGGCATTATCGATAAGGCAGACAAGGCTTGGGCGGAACTAAGCCATCACGAC
AACCCTCAGCCAGCACCGTCGTACAACAATCCCCCACCGCCTATTCCGACCGCTAGCAAGCCCCCACTAGCTTAT
CAGGAACAGCACTCGCAACCCCAGATCTACTGGCAGCCCAATCTAAATCCTCAAGTACCGGTATCTGCCAACTTT
GCCCACGAACAGGGCCAACATGGATGGGGCAACAATGAATCGCAGAATTATACCGACAGCCCGCATAACTCATTC
CATTCAAGCCAGGGCGATGCGGTGATCGTGCGCGCTCTGATCAACCACGGGAATCCCGACCCTGCCCAGAAGTTT
ACCAGCGCCAGACTGTCGAGTCACCAGACCCTCAGCCGACCACGGGGCTGTCTATCGGCCAGGATTACGGCGCCG
GTGGCCCGAGGTATCTGGCCTGCCTTTTGGCTGCTGCCTAAAGACCCCTTCAAGTGGCCTGAGGATGGCGAAGTC
GACATAATGGAAGCGTGGAACGGCGATGCTGTCAACCACACTTGTCTGCATTGGGGCAACTTCAACGGCGAGGAC
TGGAATAAGCATCGCGTTCTCGAAACCCCCATCCCCAACATTAGCTCGCCGGTAGGGGTGAGGTACGATTTTATC
TGGGATGAGGACGAAACAACGGGCAGCGGGCGCCTGGTCTGGTTGATCGATGGCACGCCCATCATGAGGGCCGAG
AAGCCGCCTGGCACAAGGAAGATGAGTGAGTTCAGGATCCTCATCAACATCGCTGTTGGAGGAAATGTCTGTCAG
GGAAACATGCCCAGCGATGGATACTACGACACAGTGGTTCGTGAGTTGGCCATGTGGGACGCGCCCCCTGGAGGT
TGGAATGAATTTGACAGGGCTTGGGGATATTCCAAAGATGGCAATACCATGTAA
Transcript >Pro_DTO377G3_2|g1844.t1
ATGCCATTCAGACAGGCCCTTCAGGGCATTATCGATAAGGCAGACAAGGCTTGGGCGGAACTAAGCCATCACGAC
AACCCTCAGCCAGCACCGTCGTACAACAATCCCCCACCGCCTATTCCGACCGCTAGCAAGCCCCCACTAGCTTAT
CAGGAACAGCACTCGCAACCCCAGATCTACTGGCAGCCCAATCTAAATCCTCAAGTACCGGTATCTGCCAACTTT
GCCCACGAACAGGGCCAACATGGATGGGGCAACAATGAATCGCAGAATTATACCGACAGCCCGCATAACTCATTC
CATTCAAGCCAGGGCGATGCGGTGATCGTGCGCGCTCTGATCAACCACGGGAATCCCGACCCTGCCCAGAAGTTT
ACCAGCGCCAGACTGTCGAGTCACCAGACCCTCAGCCGACCACGGGGCTGTCTATCGGCCAGGATTACGGCGCCG
GTGGCCCGAGGTATCTGGCCTGCCTTTTGGCTGCTGCCTAAAGACCCCTTCAAGTGGCCTGAGGATGGCGAAGTC
GACATAATGGAAGCGTGGAACGGCGATGCTGTCAACCACACTTGTCTGCATTGGGGCAACTTCAACGGCGAGGAC
TGGAATAAGCATCGCGTTCTCGAAACCCCCATCCCCAACATTAGCTCGCCGGTAGGGGTGAGGTACGATTTTATC
TGGGATGAGGACGAAACAACGGGCAGCGGGCGCCTGGTCTGGTTGATCGATGGCACGCCCATCATGAGGGCCGAG
AAGCCGCCTGGCACAAGGAAGATGAGTGAGTTCAGGATCCTCATCAACATCGCTGTTGGAGGAAATGTCTGTCAG
GGAAACATGCCCAGCGATGGATACTACGACACAGTGGTTCGTGAGTTGGCCATGTGGGACGCGCCCCCTGGAGGT
TGGAATGAATTTGACAGGGCTTGGGGATATTCCAAAGATGGCAATACCATGTAA
Gene >Pro_DTO377G3_2|g1844.t1
ATGCCATTCAGACAGGCCCTTCAGGGCATTATCGATAAGGCAGACAAGGCTTGGGCGGAACTAAGCCATCACGAC
AACCCTCAGCCAGCACCGTCGTACAACAATCCCCCACCGCCTATTCCGACCGCTAGCAAGCCCCCACTAGCTTAT
CAGGAACAGCACTCGCAACCCCAGATCTACTGGCAGCCCAATCTAAATCCTCAAGTACCGGTATCTGCCAACTTT
GCCCACGAACAGGGCCAACATGGATGGGGCAACAATGAATCGCAGAATTATACCGACAGCCCGCATAACTCATTC
CATTCAAGCCAGGGCGATGCGGTGATCGTGCGCGCTCTGATCAACCACGGGAATCCCGACCCTGCCCAGAAGTTT
ACCAGCGCCAGACTGTCGAGTCACCAGACCCTCAGCCGACCACGGGGCTGTCTATCGGCCAGGATTACGGCGCCG
GTGGCCCGAGGTATCTGGCCTGCCTTTTGGCTGCTGCCTAAAGACCCCTTCAAGTGGCCTGAGGATGGCGAAGTC
GACATAATGGAAGCGTGGAACGGCGATGCTGTCAACCACACTTGTCTGCATTGGGGCAACTTCAACGGCGAGGAC
TGGAATAAGCATCGCGTTCTCGAAACCCCCATCCCCAACATTAGCTCGCCGGTAGGGGTGAGGTACGATTTTATC
TGGGATGAGGACGAAACAACGGGCAGCGGGCGCCTGGTCTGGTTGATCGATGGCACGCCCATCATGAGGGCCGAG
AAGCCGCCTGGCACAAGGAAGATGAGTGAGTTCAGGATCCTCATCAACATCGCTGTTGGAGGAAATGTCTGTCAG
GGAAACATGCCCAGCGATGGATACTACGACACAGTGGTTCGTGAGTTGGCCATGTGGGACGCGCCCCCTGGAGGT
TGGAATGAATTTGACAGGGCTTGGGGATATTCCAAAGATGGCAATACCATGTAA

© 2022 - Robin Ohm - Utrecht University - The Netherlands

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