EC Number |
General Information |
Reference |
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1.11.1.11 | evolution |
APX belongs to the class I heme-peroxidases, isozyme AtAPX1 belongs to group I. APXs in the selected plant species show high evolutionary conservation and are able to divide into seven groups, group I to VII. Members in the groups contain abundant phosphorylation sites. Group I and VII have only protein kinase C site. Additionally, promoters of the APXs contain abundant stress-related cis-elements. APX is comprised of different isozymes, which are encoded by a multi-gene family and found in many compartments of cell |
765656 |
1.11.1.11 | evolution |
APX belongs to the class I heme-peroxidases, isozyme AtAPX2 belongs to group I. APXs in the selected plant species show high evolutionary conservation and are able to divide into seven groups, group I to VII. Members in the groups contain abundant phosphorylation sites. Group I and VII have only protein kinase C site. Additionally, promoters of the APXs contain abundant stress-related cis-elements. APX is comprised of different isozymes, which are encoded by a multi-gene family and found in many compartments of cell |
765656 |
1.11.1.11 | evolution |
APX belongs to the class I heme-peroxidases, isozyme AtAPX3 belongs to group II. APXs in the selected plant species show high evolutionary conservation and are able to divide into seven groups, group I to VII. Members in the groups contain abundant phosphorylation sites. Group I and VII have only protein kinase C site. Additionally, promoters of the APXs contain abundant stress-related cis-elements. APX is comprised of different isozymes, which are encoded by a multi-gene family and found in many compartments of cell |
765656 |
1.11.1.11 | evolution |
APX belongs to the class I heme-peroxidases, isozyme AtAPX5 belongs to group II. APXs in the selected plant species show high evolutionary conservation and are able to divide into seven groups, group I to VII. Members in the groups contain abundant phosphorylation sites. Group I and VII have only protein kinase C site. Additionally, promoters of the APXs contain abundant stress-related cis-elements. APX is comprised of different isozymes, which are encoded by a multi-gene family and found in many compartments of cell |
765656 |
1.11.1.11 | evolution |
APX belongs to the class I heme-peroxidases, isozyme AtAPX6 belongs to group V. APXs in the selected plant species show high evolutionary conservation and are able to divide into seven groups, group I to VII. Members in the groups contain abundant phosphorylation sites. Group I and VII have only protein kinase C site. Additionally, promoters of the APXs contain abundant stress-related cis-elements. APX is comprised of different isozymes, which are encoded by a multi-gene family and found in many compartments of cell |
765656 |
1.11.1.11 | evolution |
APX belongs to the class I heme-peroxidases, isozyme AtSAPX belongs to group IV. APXs in the selected plant species show high evolutionary conservation and are able to divide into seven groups, group I to VII. Members in the groups contain abundant phosphorylation sites. Group I and VII have only protein kinase C site. Additionally, promoters of the APXs contain abundant stress-related cis-elements. APX is comprised of different isozymes, which are encoded by a multi-gene family and found in many compartments of cell |
765656 |
1.11.1.11 | evolution |
APX belongs to the class I heme-peroxidases, isozyme AtTAPX belongs to group IV. APXs in the selected plant species show high evolutionary conservation and are able to divide into seven groups, group I to VII. Members in the groups contain abundant phosphorylation sites. Group I and VII have only protein kinase C site. Additionally, promoters of the APXs contain abundant stress-related cis-elements. APX is comprised of different isozymes, which are encoded by a multi-gene family and found in many compartments of cell |
765656 |
1.11.1.11 | evolution |
APX belongs to the class I heme-peroxidases, isozyme CreAPX1 belongs to group IV. APXs in the selected plant species show high evolutionary conservation and are able to divide into seven groups, group I to VII. Members in the groups contain abundant phosphorylation sites. Group I and VII have only protein kinase C site. Additionally, promoters of the APXs contain abundant stress-related cis-elements. APX is comprised of different isozymes, which are encoded by a multi-gene family and found in many compartments of cell |
765656 |
1.11.1.11 | evolution |
APX belongs to the class I heme-peroxidases, isozyme CreAPX2 belongs to group V. APXs in the selected plant species show high evolutionary conservation and are able to divide into seven groups, group I to VII. Members in the groups contain abundant phosphorylation sites. Group I and VII have only protein kinase C site. Additionally, promoters of the APXs contain abundant stress-related cis-elements. APX is comprised of different isozymes, which are encoded by a multi-gene family and found in many compartments of cell |
765656 |
1.11.1.11 | evolution |
APX belongs to the class I heme-peroxidases, isozyme CreAPX4 belongs to group VI. APXs in the selected plant species show high evolutionary conservation and are able to divide into seven groups, group I to VII. Members in the groups contain abundant phosphorylation sites. Group I and VII have only protein kinase C site. Additionally, promoters of the APXs contain abundant stress-related cis-elements. APX is comprised of different isozymes, which are encoded by a multi-gene family and found in many compartments of cell |
765656 |