Literature summary extracted from

Hage, H.; Rosso, M.N.; Tarrago, L.
Distribution of methionine sulfoxide reductases in fungi and conservation of the free-methionine-R-sulfoxide reductase in multicellular eukaryotes (2021), Free Radic. Biol. Med., 169, 187-215 .

Organism

EC Number	Organism	UniProt	Comment	Textmining
1.8.4.11	Absidia repens	-	-	-
1.8.4.11	Absidia repens NRRL 1336	-	-	-
1.8.4.11	Coniochaeta sp. 2T2.1 v1.0	-	-	-
1.8.4.11	Coprinellus micaceus	-	-	-
1.8.4.11	Coprinellus micaceus FP101781 v2.0	-	-	-
1.8.4.11	Crucibulum laeve	-	-	-
1.8.4.11	Crucibulum laeve CBS 166.37 v1.0	-	-	-
1.8.4.11	Dendrothele bispora	-	-	-
1.8.4.11	Dendrothele bispora CBS 962.96 v1.0	-	-	-
1.8.4.11	Gonapodya prolifera	-	-	-
1.8.4.11	Hortaea werneckii	-	-	-
1.8.4.11	Hortaea werneckii EXF-2000 M0 v1.0	-	-	-
1.8.4.11	Pichia kudriavzevii	-	-	-
1.8.4.11	Pichia kudriavzevii CBS573	-	-	-
1.8.4.11	Ramaria rubella	-	-	-
1.8.4.11	Ramaria rubella UT-36052-T v1.0	-	-	-
1.8.4.11	Rhizopus microsporus	-	-	-
1.8.4.11	Rhizopus microsporus ATCC 11559	-	-	-
1.8.4.11	Rhizopus microsporus var. chinensis	-	-	-
1.8.4.11	Rhizopus microsporus var. chinensis CCTCC M201021	-	-	-
1.8.4.11	Smittium culicis	-	-	-
1.8.4.11	Smittium culicis GSMNP	-	-	-
1.8.4.11	Smittium mucronatum	-	-	-
1.8.4.11	Smittium mucronatum ALG-7-W6	-	-	-
1.8.4.11	Tulasnella calospora	-	-	-
1.8.4.11	Tulasnella calospora AL13/4D v1.0	-	-	-
1.8.4.11	Yarrowia lipolytica	-	-	-
1.8.4.11	Yarrowia lipolytica CLIB 122	-	-	-
1.8.4.11	Yarrowia lipolytica CLIB 89 (W29)	-	-	-
1.8.4.11	Yarrowia lipolytica FKP355 v1.0	-	-	-
1.8.4.11	Yarrowia lipolytica PO1f v1.0	-	-	-
1.8.4.11	Yarrowia lipolytica YB419 v1.0	-	-	-
1.8.4.11	Yarrowia lipolytica YB420 v1.0	-	-	-
1.8.4.11	Yarrowia lipolytica YB566 v1.0	-	-	-
1.8.4.11	Yarrowia lipolytica YB567 v1.0	-	-	-
1.8.4.11	Yarrowia lipolytica YlCW001 v1.0	-	-	-
1.8.4.12	Absidia repens	A0A1X2IF91	-	-
1.8.4.12	Absidia repens NRRL 1336	A0A1X2IF91	-	-
1.8.4.12	Coniochaeta sp.	-	-	-
1.8.4.12	Coprinellus micaceus	-	-	-
1.8.4.12	Coprinellus micaceus FP101781 v2.0	-	-	-
1.8.4.12	Crucibulum laeve	-	-	-
1.8.4.12	Crucibulum laeve CBS 166.37 v1.0	-	-	-
1.8.4.12	Dendrothele bispora	-	-	-
1.8.4.12	Dendrothele bispora CBS 962.96 v1.0	-	-	-
1.8.4.12	Gonapodya prolifera	-	-	-
1.8.4.12	Hortaea werneckii	-	-	-
1.8.4.12	Hortaea werneckii EXF-2000 M0 v1.0	-	-	-
1.8.4.12	Pichia kudriavzevii	A0A2U9QWX2	-	-
1.8.4.12	Pichia kudriavzevii CBS573	A0A2U9QWX2	-	-
1.8.4.12	Ramaria rubella	-	-	-
1.8.4.12	Ramaria rubella UT-36052-T v1.0	-	-	-
1.8.4.12	Rhizopus microsporus	A0A1X0RU86	-	-
1.8.4.12	Rhizopus microsporus ATCC 11559	A0A1X0RU86	-	-
1.8.4.12	Rhizopus microsporus var. chinensis	-	-	-
1.8.4.12	Rhizopus microsporus var. chinensis CCTCC M201021	-	-	-
1.8.4.12	Smittium culicis	-	-	-
1.8.4.12	Smittium culicis GSMNP	-	-	-
1.8.4.12	Smittium mucronatum	-	-	-
1.8.4.12	Smittium mucronatum ALG-7-W6	-	-	-
1.8.4.12	Tulasnella calospora	-	-	-
1.8.4.12	Tulasnella calospora AL13/4D v1.0	-	-	-
1.8.4.12	Yarrowia lipolytica	-	-	-
1.8.4.12	Yarrowia lipolytica	A0A1D8N9R8	-	-
1.8.4.12	Yarrowia lipolytica	Q6CCY5	-	-
1.8.4.12	Yarrowia lipolytica CLIB 122	Q6CCY5	-	-
1.8.4.12	Yarrowia lipolytica CLIB 89 (W29)	A0A1D8N9R8	-	-
1.8.4.12	Yarrowia lipolytica FKP355 v1.0	-	-	-
1.8.4.12	Yarrowia lipolytica PO1f v1.0	-	-	-
1.8.4.12	Yarrowia lipolytica YB419 v1.0	-	-	-
1.8.4.12	Yarrowia lipolytica YB420 v1.0	-	-	-
1.8.4.12	Yarrowia lipolytica YB566 v1.0	-	-	-
1.8.4.12	Yarrowia lipolytica YB567 v1.0	-	-	-
1.8.4.12	Yarrowia lipolytica YlCW001 v1.0	-	-	-
1.8.4.13	Absidia repens	-	-	-
1.8.4.13	Absidia repens NRRL 1336	-	-	-
1.8.4.13	Coniochaeta sp.	-	-	-
1.8.4.13	Coprinellus micaceus	-	-	-
1.8.4.13	Coprinellus micaceus FP101781 v2.0	-	-	-
1.8.4.13	Crucibulum laeve	-	-	-
1.8.4.13	Crucibulum laeve CBS 166.37 v1.0	-	-	-
1.8.4.13	Dendrothele bispora	-	-	-
1.8.4.13	Dendrothele bispora CBS 962.96 v1.0	-	-	-
1.8.4.13	Gonapodya prolifera	-	-	-
1.8.4.13	Gonapodya prolifera v1.0	-	-	-
1.8.4.13	Hortaea werneckii	-	-	-
1.8.4.13	Hortaea werneckii EXF-2000 M0 v1.0	-	-	-
1.8.4.13	Pichia kudriavzevii	-	-	-
1.8.4.13	Pichia kudriavzevii CBS573	-	-	-
1.8.4.13	Ramaria rubella	-	-	-
1.8.4.13	Ramaria rubella UT-36052-T v1.0	-	-	-
1.8.4.13	Rhizopus microsporus	-	-	-
1.8.4.13	Rhizopus microsporus ATCC 11559	-	-	-
1.8.4.13	Rhizopus microsporus var. chinensis	-	-	-
1.8.4.13	Rhizopus microsporus var. chinensis CCTCC M201021	-	-	-
1.8.4.13	Saccharomyces cerevisiae	P36088	-	-
1.8.4.13	Saccharomyces cerevisiae ATCC 204508	P36088	-	-
1.8.4.13	Smittium culicis	-	-	-
1.8.4.13	Smittium culicis GSMNP	-	-	-
1.8.4.13	Smittium mucronatum	-	-	-
1.8.4.13	Smittium mucronatum ALG-7-W6	-	-	-
1.8.4.13	Tulasnella calospora	-	-	-
1.8.4.13	Tulasnella calospora AL13/4D v1.0	-	-	-
1.8.4.13	Yarrowia lipolytica	-	-	-
1.8.4.13	Yarrowia lipolytica CLIB 89 (W29)	-	-	-
1.8.4.13	Yarrowia lipolytica CLIB122	-	-	-
1.8.4.13	Yarrowia lipolytica FKP355 v1.0	-	-	-
1.8.4.13	Yarrowia lipolytica YB392 v1.0	-	-	-
1.8.4.13	Yarrowia lipolytica YB419 v1.0	-	-	-
1.8.4.13	Yarrowia lipolytica YB420 v1.0	-	-	-
1.8.4.13	Yarrowia lipolytica YB566 v1.0	-	-	-
1.8.4.13	Yarrowia lipolytica YB567 v1.0	-	-	-
1.8.4.13	Yarrowia lipolytica YlCW001 v1.0	-	-	-

Synonyms

EC Number	Synonyms	Comment	Organism
1.8.4.11	MsrA	-	Yarrowia lipolytica
1.8.4.11	MsrA	-	Pichia kudriavzevii
1.8.4.11	MsrA	-	Rhizopus microsporus var. chinensis
1.8.4.11	MsrA	-	Rhizopus microsporus
1.8.4.11	MsrA	-	Hortaea werneckii
1.8.4.11	MsrA	-	Crucibulum laeve
1.8.4.11	MsrA	-	Dendrothele bispora
1.8.4.11	MsrA	-	Tulasnella calospora
1.8.4.11	MsrA	-	Ramaria rubella
1.8.4.11	MsrA	-	Coprinellus micaceus
1.8.4.11	MsrA	-	Coniochaeta sp. 2T2.1 v1.0
1.8.4.11	MsrA	-	Absidia repens
1.8.4.11	MsrA	-	Smittium mucronatum
1.8.4.11	MsrA	-	Smittium culicis
1.8.4.11	MsrA	-	Gonapodya prolifera
1.8.4.12	MsrA	-	Yarrowia lipolytica
1.8.4.12	MsrB	-	Yarrowia lipolytica
1.8.4.12	MsrB	-	Rhizopus microsporus var. chinensis
1.8.4.12	MsrB	-	Hortaea werneckii
1.8.4.12	MsrB	-	Pichia kudriavzevii
1.8.4.12	MsrB	-	Absidia repens
1.8.4.12	MsrB	-	Rhizopus microsporus
1.8.4.12	MsrB	-	Crucibulum laeve
1.8.4.12	MsrB	-	Dendrothele bispora
1.8.4.12	MsrB	-	Tulasnella calospora
1.8.4.12	MsrB	-	Ramaria rubella
1.8.4.12	MsrB	-	Coprinellus micaceus
1.8.4.12	MsrB	-	Smittium mucronatum
1.8.4.12	MsrB	-	Smittium culicis
1.8.4.12	MsrB	-	Gonapodya prolifera
1.8.4.12	MsrB	-	Coniochaeta sp.
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Yarrowia lipolytica
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Pichia kudriavzevii
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Rhizopus microsporus var. chinensis
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Rhizopus microsporus
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Hortaea werneckii
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Saccharomyces cerevisiae
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Crucibulum laeve
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Dendrothele bispora
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Tulasnella calospora
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Ramaria rubella
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Coprinellus micaceus
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Absidia repens
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Smittium mucronatum
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Smittium culicis
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Gonapodya prolifera
1.8.4.13	free-methionine-R-sulfoxide reductase	-	Coniochaeta sp.
1.8.4.13	fRMsr	-	Yarrowia lipolytica
1.8.4.13	fRMsr	-	Pichia kudriavzevii
1.8.4.13	fRMsr	-	Rhizopus microsporus var. chinensis
1.8.4.13	fRMsr	-	Rhizopus microsporus
1.8.4.13	fRMsr	-	Hortaea werneckii
1.8.4.13	fRMsr	-	Saccharomyces cerevisiae
1.8.4.13	fRMsr	-	Crucibulum laeve
1.8.4.13	fRMsr	-	Dendrothele bispora
1.8.4.13	fRMsr	-	Tulasnella calospora
1.8.4.13	fRMsr	-	Ramaria rubella
1.8.4.13	fRMsr	-	Coprinellus micaceus
1.8.4.13	fRMsr	-	Absidia repens
1.8.4.13	fRMsr	-	Smittium mucronatum
1.8.4.13	fRMsr	-	Smittium culicis
1.8.4.13	fRMsr	-	Gonapodya prolifera
1.8.4.13	fRMsr	-	Coniochaeta sp.

General Information

EC Number	General Information	Comment	Organism
1.8.4.11	additional information	a survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Crucibulum laeve
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Yarrowia lipolytica
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Pichia kudriavzevii
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Rhizopus microsporus var. chinensis
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Rhizopus microsporus
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Hortaea werneckii
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Dendrothele bispora
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Tulasnella calospora
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Ramaria rubella
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Coprinellus micaceus
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Coniochaeta sp. 2T2.1 v1.0
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Absidia repens
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Smittium mucronatum
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Smittium culicis
1.8.4.11	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Gonapodya prolifera
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Yarrowia lipolytica
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Rhizopus microsporus var. chinensis
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Hortaea werneckii
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Pichia kudriavzevii
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Absidia repens
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Rhizopus microsporus
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Crucibulum laeve
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Dendrothele bispora
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Tulasnella calospora
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Ramaria rubella
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Coprinellus micaceus
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Smittium mucronatum
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Smittium culicis
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Gonapodya prolifera
1.8.4.12	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Coniochaeta sp.
1.8.4.13	additional information	a survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Crucibulum laeve
1.8.4.13	additional information	a survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites were devoid of msr genes	Saccharomyces cerevisiae
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Yarrowia lipolytica
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Pichia kudriavzevii
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Rhizopus microsporus var. chinensis
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Rhizopus microsporus
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Hortaea werneckii
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Dendrothele bispora
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Tulasnella calospora
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Ramaria rubella
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Coprinellus micaceus
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Absidia repens
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Smittium mucronatum
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Smittium culicis
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Gonapodya prolifera
1.8.4.13	additional information	survey of msr genes in almost 700 genomes across the fungal kingdom. Most fungi possess one gene coding for each type of methionine sulfoxide reductase: MsrA, MsrB, and fRMsr. Several fungi living in anaerobic environments or as obligate intracellular parasites are devoid of msr genes	Coniochaeta sp.