Cloned (Comment) | Organism |
---|---|
gene CsFUS3, DNA and amino acid sequence determination and analysis | Bipolaris sorokiniana |
gene CsHOG1, DNA and amino acid sequence determination and analysis | Bipolaris sorokiniana |
gene CsSLT2, DNA and amino acid sequence determination and analysis | Bipolaris sorokiniana |
Protein Variants | Comment | Organism |
---|---|---|
additional information | generation of a gene replacement DELTACsFUS3 knockout mutant. Fungal development and conidial productivity of the knockout mutant, overview | Bipolaris sorokiniana |
additional information | generation of a gene replacement DELTACsHOG1 knockout mutant. DELTACshog1 mutants are significantly reduced in growth under the oxidative stress produced by 10mM H2O2 and the salt stress produced by 1.5mM KCl. Fungal development and conidial productivity of the knockout mutant, overview | Bipolaris sorokiniana |
additional information | generation of a gene replacement DELTACsSLT2 knockout mutant. Fungal development and conidial productivity of the knockout mutant, overview | Bipolaris sorokiniana |
Organism | UniProt | Comment | Textmining |
---|---|---|---|
Bipolaris sorokiniana | - |
i.e. Cochliobolus sativus | - |
Bipolaris sorokiniana | M2SJ60 | Hog1; i.e. Cochliobolus sativus | - |
Bipolaris sorokiniana ND90Pr | - |
i.e. Cochliobolus sativus | - |
Bipolaris sorokiniana ND90Pr | M2SJ60 | Hog1; i.e. Cochliobolus sativus | - |
Synonyms | Comment | Organism |
---|---|---|
CsFUS3 | - |
Bipolaris sorokiniana |
CsHOG1 | - |
Bipolaris sorokiniana |
CsSLT2 | - |
Bipolaris sorokiniana |
MAP kinase | - |
Bipolaris sorokiniana |
MAPK | - |
Bipolaris sorokiniana |
General Information | Comment | Organism |
---|---|---|
malfunction | no morphological changes are observed in the DELTACshog1 knockout mutant in comparison with the wild-type, but they are slightly reduced in growth under oxidative stress and are hypersensitive to hyperosmotic stress. The DELTACshog1 mutants form normal appressoria-like structures but are reduced in virulence when inoculated on Bowman leaves. The DELTACshog1 mutant is able to infect barley roots, no significant difference in virulence is observed for DELTACshog1 mutants compared to the wild-type | Bipolaris sorokiniana |
malfunction | the DELTACsfus3 knockout mutant is defective in conidiation and formation of appressoria-like structures, showing hypersensitivity to oxidative stress and loss of pathogenicity on non-wounded leaves of Hordeum vulgare cv. Bowman. When inoculated on wounded leaves of Bowman, the DELTACsfus3 knockout mutant is reduced in virulence compared to the wild-type. The DELTACsfus3 mutant fails to cause any symptoms on barley roots | Bipolaris sorokiniana |
malfunction | the DELTACsslt2 knockout mutant produces more vegetative hyphae, has lighter pigmentation, are more sensitive to cell wall degrading enzymes, and are reduced in virulence on Bowman leaves compared to the wild-type, although they formed normal appressoria like the wild-type. The DELTACsslt2 mutant is able to infect barley roots. DELTACsslt2 mutants show significantly reduced virulence on barley roots in comparison with the wild-type | Bipolaris sorokiniana |
physiological function | the MAPK gene is involved in the regulation of fungal development under normal and stress conditions and is required for full virulence on barley plants | Bipolaris sorokiniana |
physiological function | the MAPK gene is involved in the regulation of fungal development under normal and stress conditions and is required for full virulence on barley plants. Enzyme CsSLT2 has a role in the maintenance of cell-wall integrity in Bipolaris sorokiniana | Bipolaris sorokiniana |