Crystallization (Comment) | Organism |
---|---|
- |
Solanum lycopersicum |
Inhibitors | Comment | Organism | Structure |
---|---|---|---|
additional information | aldehyde and fluoromethyketone (FMK)-based inhibitors inhibit SAS-1 and -2 reversibly and only CMK-based inhibitors irreversibly inhibit the enzyme | Avena sativa |
Localization | Comment | Organism | GeneOntology No. | Textmining |
---|---|---|---|---|
extracellular | - |
Avena sativa | - |
- |
extracellular | extracellular in healthy tissues, shifts to cytoplasm upon programmed cell death induction | Nicotiana tabacum | - |
- |
extracellular | extracellular in healthy tissues, shifts to cytoplasm upon programmed cell death induction | Oryza sativa | - |
- |
Molecular Weight [Da] | Molecular Weight Maximum [Da] | Comment | Organism |
---|---|---|---|
74500 | - |
MALDI-TOF | Avena sativa |
80000 | - |
single polypeptide chain | Nicotiana tabacum |
80000 | - |
single polypeptide chain | Oryza sativa |
84000 | - |
SDS-PAGE | Avena sativa |
Organism | UniProt | Comment | Textmining |
---|---|---|---|
Arabidopsis thaliana | - |
Arabidopsis genome contains 56 subtilase genes | - |
Avena sativa | - |
- |
- |
Glycine max | - |
- |
- |
Nicotiana tabacum | - |
- |
- |
Oryza sativa | - |
- |
- |
Solanum lycopersicum | - |
- |
- |
Posttranslational Modification | Comment | Organism |
---|---|---|
proteolytic modification | expressed as pre-pro-proteins whose prodomains are autocatalytically processed | Nicotiana tabacum |
proteolytic modification | expressed as pre-pro-proteins whose prodomains are autocatalytically processed | Avena sativa |
proteolytic modification | expressed as pre-pro-proteins whose prodomains are autocatalytically processed | Oryza sativa |
Substrates | Comment Substrates | Organism | Products | Comment (Products) | Rev. | Reac. |
---|---|---|---|---|---|---|
additional information | displays preference for cleavage after Glu | Glycine max | ? | - |
? | |
additional information | enzyme is able to hydrolyze a range of fluorogenic substrates, including AFC derivatives of VEID, VAD, YVAD, IETD, VDVAD and LEHD | Nicotiana tabacum | ? | - |
? | |
additional information | enzyme is able to hydrolyze a range of fluorogenic substrates, including AFC derivatives of VEID, VAD, YVAD, IETD, VDVAD and LEHD | Oryza sativa | ? | - |
? |
Synonyms | Comment | Organism |
---|---|---|
ALE1 subtilase | - |
Arabidopsis thaliana |
C1 subtilase | - |
Glycine max |
P69 subtilase | - |
Solanum lycopersicum |
phytophase | extensive homology to other plant subtilisin-like serine protease, phytaspase: a plant aspartate-specific protease | Nicotiana tabacum |
phytophase | extensive homology to other plant subtilisin-like serine protease, phytaspase: a plant aspartate-specific protease | Oryza sativa |
S1P subtilase | - |
Arabidopsis thaliana |
SAS-1 | extensive homology to other plant subtilisin-like serine protease | Avena sativa |
saspase | saspase: serine proteases exhibting aspase activity | Avena sativa |
SDD1 subtilase | - |
Arabidopsis thaliana |
SISBT3 subtilase | - |
Solanum lycopersicum |
General Information | Comment | Organism |
---|---|---|
physiological function | acts extracellularly in the apoplast of stomatal precursor cells where it may be involved in the generation of signals responsible for stomata density regulation | Arabidopsis thaliana |
physiological function | enzyme shows caspase specificity | Nicotiana tabacum |
physiological function | enzyme shows caspase specificity | Oryza sativa |
physiological function | implicated in fragmentation of the membrane-bound transcription factor AtbZIP1723 and precursors of pectin methylesterase and rapid alkalinization growth factor | Arabidopsis thaliana |
physiological function | involved in proteolysis of the seed storage protein, beta-conglycinin | Glycine max |
physiological function | pathogenesis related protein which is shown to be one of several subtilases that are specifically induced following pathogen infection. P69 is suggested to process a leucin-rich repeat cell wall protein in virus-infected tomato plants | Solanum lycopersicum |
physiological function | some caspase-like activities are attributable to the plant subtilisin-like proteases, saspases and phytaspases. Enzyme hydrolyzes a range of tetrapeptide caspase substrates following the aspartate residue. Enzyme is implicated the proteolytic degradation of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) during biotic and abiotic programmed cell death | Avena sativa |
physiological function | some caspase-like activities are attributable to the plant subtilisin-like proteases, saspases and phytaspases. Enzyme hydrolyzes a range of tetrapeptide caspase substrates following the aspartate residue. In response to death-inducing stimuli, phytaspase is shown to re-localize to the cell interior | Nicotiana tabacum |
physiological function | some caspase-like activities are attributable to the plant subtilisin-like proteases, saspases and phytaspases. Enzyme hydrolyzes a range of tetrapeptide caspase substrates following the aspartate residue. In response to death-inducing stimuli, phytaspase is shown to re-localize to the cell interior | Oryza sativa |
physiological function | the subtilase ALE1 is involved in the generation of peptide signals that are required for cuticle formation and epidermal differentiation during Arabidopsis embryo development | Arabidopsis thaliana |