| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2012PNAS..109.7469M |
| P356 | DOI | 10.1073/PNAS.1200885109 |
| P932 | PMC publication ID | 3358904 |
| P698 | PubMed publication ID | 22529389 |
| P5875 | ResearchGate publication ID | 224824955 |
| P50 | author | Jana Rudolf | Q81416163 |
| Jeremy C. Mottram | Q41417991 | ||
| P2093 | author name string | Karen McLuskey | |
| Neil W Isaacs | |||
| Graham H Coombs | |||
| Catherine X Moss | |||
| William R Proto | |||
| P2860 | cites work | The anatomy of protein beta-sheet topology | Q41740168 |
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| Bloodstream form Trypanosoma brucei depend upon multiple metacaspases associated with RAB11-positive endosomes | Q46968629 | ||
| Metacaspase-dependent programmed cell death is essential for plant embryogenesis | Q47668098 | ||
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| Metacaspases. | Q35210619 | ||
| Trypanosoma brucei metacaspase 4 is a pseudopeptidase and a virulence factor | Q35562663 | ||
| The protein structures that shape caspase activity, specificity, activation and inhibition | Q35902423 | ||
| Programmed cell death in plant embryogenesis | Q36159265 | ||
| Are metacaspases caspases? | Q39752566 | ||
| Design and evaluation of Trypanosoma brucei metacaspase inhibitors. | Q39807680 | ||
| Lanthanides as probes for calcium in biological systems | Q39810508 | ||
| An essential role for the Leishmania major metacaspase in cell cycle progression. | Q40074936 | ||
| P433 | issue | 19 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Trypanosoma brucei | Q33244 |
| crystal structure | Q895901 | ||
| P304 | page(s) | 7469-7474 | |
| P577 | publication date | 2012-04-23 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Crystal structure of a Trypanosoma brucei metacaspase | |
| P478 | volume | 109 |
| Q38981272 | AtSERPIN1 is an inhibitor of the metacaspase AtMC1-mediated cell death and autocatalytic processing in planta |
| Q48013320 | Biochemical evidence of key residues for the activation and autoprocessing of tomato type II metacaspase |
| Q38064289 | Cell death in parasitic protozoa: regulated or incidental? |
| Q90110470 | Classification and Nomenclature of Metacaspases and Paracaspases: No More Confusion with Caspases |
| Q38361862 | Comparative structural analysis of the caspase family with other clan CD cysteine peptidases |
| Q39700715 | Contact Statistics Highlight Distinct Organizing Principles of Proteins and RNA |
| Q35945523 | Crystal Structure and Activity Studies of the C11 Cysteine Peptidase from Parabacteroides merdae in the Human Gut Microbiome |
| Q27930933 | Crystal structure of the yeast metacaspase Yca1. |
| Q92029189 | Identification and characterization of Schizophyllum commune type I metacaspases |
| Q36288718 | Leishmania mexicana metacaspase is a negative regulator of amastigote proliferation in mammalian cells. |
| Q28267461 | MALT1 is not alone after all: identification of novel paracaspases |
| Q27678659 | Mechanistic and structural studies on legumain explain its zymogenicity, distinct activation pathways, and regulation |
| Q39149351 | Metacaspases versus caspases in development and cell fate regulation |
| Q92403150 | Metacaspases: Potential Drug Target Against Protozoan Parasites |
| Q42539755 | New types of metacaspases in phytoplankton reveal diverse origins of cell death proteases |
| Q34482505 | Orthocaspases are proteolytically active prokaryotic caspase homologues: the case of Microcystis aeruginosa. |
| Q36849997 | PNT1 Is a C11 Cysteine Peptidase Essential for Replication of the Trypanosome Kinetoplast |
| Q64093152 | Phylogenetic Distribution and Diversity of Bacterial Pseudo-Orthocaspases Underline Their Putative Role in Photosynthesis |
| Q36911331 | Poly(ADP-ribose) polymerase is a substrate recognized by two metacaspases of Podospora anserina |
| Q50852294 | Post mortem function of AtMC9 in xylem vessel elements. |
| Q47618090 | Procaspase-activating compound-1 induces apoptosis in Trypanosoma cruzi |
| Q39458725 | Structural and functional diversity of caspase homologues in non-metazoan organisms. |
| Q94550177 | Structural basis for Ca2+-dependent activation of a plant metacaspase |
| Q47694554 | Structural basis of ribosomal peptide macrocyclization in plants |
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| Q42972216 | Substrate specificity and the effect of calcium on Trypanosoma brucei metacaspase 2. |
| Q36475303 | The Apoptotic Role of Metacaspase in Toxoplasma gondii |
| Q46663845 | The Arabidopsis metacaspase9 degradome |
| Q28066944 | The Potential of Secondary Metabolites from Plants as Drugs or Leads against Protozoan Neglected Diseases-Part III: In-Silico Molecular Docking Investigations |
| Q41349884 | The dual role of a yeast metacaspase: What doesn't kill you makes you stronger |
| Q38099853 | The first suicides: a legacy inherited by parasitic protozoans from prokaryote ancestors |
| Q38030017 | The non-death role of metacaspase proteases. |
| Q42171139 | The plant metacaspase AtMC1 in pathogen-triggered programmed cell death and aging: functional linkage with autophagy |
| Q46128578 | Two aspartate residues at the putative p10 subunit of a type II metacaspase from Nicotiana tabacum L. may contribute to the substrate-binding pocket. |
| Q38712408 | Type III metacaspases: calcium-dependent activity proposes new function for the p10 domain |
| Q90914855 | Unpacking the Pathogen Box-An Open Source Tool for Fighting Neglected Tropical Disease |
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