MpVg00730



Description

Annotation

Database ID Description
FunFam G3DSA:3.60.40.10:FF:000041 Protein phosphatase 2C 51
MobiDBLite mobidb-lite consensus disorder prediction
PANTHER PTHR47992 PROTEIN PHOSPHATASE
SUPERFAMILY SSF81606 PP2C-like
ProSitePatterns PS01032 PPM-type phosphatase domain signature.
Gene3D G3DSA:3.60.40.10 -
SMART SM00332 PP2C_4
Pfam PF00481 Protein phosphatase 2C
ProSiteProfiles PS51746 PPM-type phosphatase domain profile.
CDD cd00143 PP2Cc
KEGG K14497 protein phosphatase 2C [EC:3.1.3.16]
KOG KOG0698 Serine/threonine protein phosphatase; [T]
MapolyID MapolyY_A0044 -
GO GO:0006470 protein dephosphorylation
GO GO:0004722 protein serine/threonine phosphatase activity
GO GO:0035970 peptidyl-threonine dephosphorylation
GO GO:0043169 cation binding

Nomenclature

Gene symbol Product Transcript ID Status
MpABI1 Type 2C protein phosphatase, group A Published
MpABI1A Type 2C protein phosphatase, group A Published

Associated Literature (AI-based literature mining, Beta-version)

Type 2C protein phosphatase, group A; The MpABI1 cDNA encoded a 568-amino acid protein consisting of the carboxy-terminal protein phosphatase 2C (PP2C) domain and a novel amino-terminal regulatory domain. The MpABI1 transcript was detected in the gametophyte, and its expression level was increased by exogenous ABA treatment in the gemma, whose growth was strongly inhibited by Abscisic acid (ABA). (from nomenclature)

4 core 5 peripheral

Sun, Y., et al. (2019) · Proceedings of the National Academy of Sciences USA  research experimental subject
PP2C phosphatase used in PP2C-activity assays comparing ABA perception across lineages.
Eklund, D. M., et al. (2018) · Current Biology  research experimental subject
PP2C phosphatase, core negative regulator of an evolutionarily conserved ABA signaling pathway controlling dormancy/stress tolerance in M. polymorpha.
Kageyama, A., et al. (2015) · Phytochemistry  research experimental subject
ABA-INSENSITIVE1-type PP2C; ABA signaling component. ABA (acting via MpABI1) induces bisbibenzyl secondary-metabolite biosynthesis and UV-C tolerance; MpABI1 overexpressor is UV-C-sensitive.
Tougane K, Komatsu K, Bhyan SB, Sakata Y, Ishizaki K, Yamato KT, Kohchi T, Takezawa D. (2010) · Plant Physiol  research experimental subject
ABSCISIC ACID INSENSITIVE1 ortholog encoding a PP2C with a novel N-terminal regulatory domain; ABA-inducible in gemmae, nuclear-localized, and its overexpression suppressed ABA-induced gene expression and stress tolerance, identifying MpABI1 as a negative regulator of ABA signaling.
Komatsu, K., et al. (2020) · Plant Cell and Environment  research citation background
Review on ABA/osmostress signalling evolution: cites MpABI1 (PP2C) repressing ABA-induced gene expression when transiently expressed.

Expression Level powered by MBEX

Link to the original image in MBEX

Transcript models

Transcript ID Location Sequences Extract region
MpVg00730.1 chrV:4857894..4867826 (+) Gene /  mRNA /  CDS /  Protein
FASTA / GenBank (with flanking bases)

Gene structure:

Sequences:

Gene UTR + CDS + intron

FASTA

mRNA UTR + CDS

FASTA

CDS

FASTA

Protein

FASTA

MarpolBase / Genome Informatics Lab. NIG.