EC Number |
General Information |
Reference |
---|
1.15.1.1 | evolution |
Leptopilina SOD3 clusters with predicted extracellular insect Cu,Zn-SODs, phylogenetic analysis |
727892 |
1.15.1.1 | evolution |
Leptopilina SOD3 clusters with predicted extracellular insect Cu,Zn-superoxide dismutases, phylogenetic analysis |
727892 |
1.15.1.1 | evolution |
phylogenetic analysis clusters cMn-SODs and mitochondrial Mn-SODs in two separate groups |
745093 |
1.15.1.1 | evolution |
sequence analysis and expression patterns of MgMnSOD1 and MgMnSOD2 suggest that they are orthologous genes which are inherited from the two parents, Miscanthus sacchariflora and Miscanthus sinensis, respectively |
746055 |
1.15.1.1 | evolution |
the N-terminal amino acid sequence of Cu/Zn-SODII reveals a high degree of structural homology with Cu/Zn-SOD from other fungi, including Aspergillus species |
-, 745015 |
1.15.1.1 | evolution |
the two different allelic forms of a Mn-SOD involved in ROS detoxification, ApMn-SOD1 and ApMn-SOD2, differ only by two substitutions, M110L and A138G, identified in an Alvinella pompejana cDNA library |
745093 |
1.15.1.1 | evolution |
the two different allelic forms of a Mn-SOD involved in ROS detoxification, ApMn-SOD1 and ApMn-SOD2, differ only by two substitutions, M110L and A138G, identified in an Alvinella pompejana cDNA library. ApMn-SOD2 is rare (2%) and only found in the heterozygous state |
745093 |
1.15.1.1 | evolution |
two Cu/Zn superoxide dismutase family signature sequences exist in the deduced amino acid sequence of the superoxide dismutase: signature 1 consensus sequences [GA]-[IMFAT]-H-[LIVF]-H-{S}-x-[GP]-[SDG]-x-[STAGDE], and signature 2 consensus sequences G-[GNHD]-[SGA]-[GR]-x-R-x-[SGAWRV]-C-x(2)-[IV] |
727563 |
1.15.1.1 | evolution |
while invertebrate Cu/ZnSOD members mainly demonstrate a tetraexonic structure, the vertebrate members have acquired an additional intron in the third exon resulting in a quinquepartite arrangement with class-specific exon lengths. Although, teleost Cu/ZnSOD members resemble the mammalian orthologues in their genomic organization, they share a proximal position with molluscan members in the phylogeny |
744746 |
1.15.1.1 | malfunction |
enhanced EcSOD expression in skeletal muscle inhibits endothelial activation, EcSOD is sufficient to inhibit endothelial activation in vitro and in vivo |
-, 744962 |