| scholarly article | Q13442814 |
| P50 | author | Christina Redfield | Q40991351 |
| Diego Gonzalez | Q59680143 | ||
| Despoina A.I. Mavridou | Q61143134 | ||
| P2093 | author name string | Colin Kleanthous | |
| Stuart J Ferguson | |||
| Jared L Cartwright | |||
| Shevket H Shevket | |||
| P2860 | cites work | MUSCLE: multiple sequence alignment with high accuracy and high throughput | Q24613456 |
| Basic local alignment search tool | Q25938991 | ||
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| NMR structure of the heme chaperone CcmE reveals a novel functional motif | Q27639954 | ||
| A strategic protein in cytochrome c maturation: three-dimensional structure of CcmH and binding to apocytochrome c | Q27646618 | ||
| TPR domain of NrfG mediates complex formation between heme lyase and formate-dependent nitrite reductase in Escherichia coli O157:H7 | Q27647821 | ||
| The CCPN data model for NMR spectroscopy: development of a software pipeline | Q27860601 | ||
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| Discovery and sequence analysis of bacterial genes involved in the biogenesis of c-type cytochromes | Q28281494 | ||
| ABC transporter-mediated release of a haem chaperone allows cytochrome c biogenesis | Q28492552 | ||
| Search and clustering orders of magnitude faster than BLAST | Q29547431 | ||
| Still a puzzle: why is haem covalently attached in c-type cytochromes? | Q33334276 | ||
| Probing heme delivery processes in cytochrome c biogenesis System I. | Q33356546 | ||
| Robust and accurate prediction of residue-residue interactions across protein interfaces using evolutionary information. | Q33668749 | ||
| Bacterial respiration: a flexible process for a changing environment | Q33880938 | ||
| The cytochrome bc1 complex: function in the context of structure | Q33976113 | ||
| The CcmE protein of the c-type cytochrome biogenesis system: unusual in vitro heme incorporation into apo-CcmE and transfer from holo-CcmE to apocytochrome | Q34075229 | ||
| Cytochrome c assembly. | Q34323819 | ||
| A seven-gene operon essential for formate-dependent nitrite reduction to ammonia by enteric bacteria. | Q34332022 | ||
| Sequence variability in bacterial cytochromes c. | Q34491639 | ||
| Biochemical and mutational characterization of the heme chaperone CcmE reveals a heme binding site | Q34494823 | ||
| Cytochrome c: occurrence and functions | Q34564050 | ||
| CcmI subunit of CcmFHI heme ligation complex functions as an apocytochrome c chaperone during c-type cytochrome maturation | Q35562543 | ||
| Axial coordination of heme in ferric CcmE chaperone characterized by EPR spectroscopy | Q35613618 | ||
| Cytochrome C-mediated apoptosis | Q35799945 | ||
| Mitochondrial cytochrome c biogenesis: no longer an enigma. | Q35875522 | ||
| Transmembrane heme delivery systems. | Q36062579 | ||
| Biogenesis of respiratory cytochromes in bacteria. | Q36574350 | ||
| The CcmC:heme:CcmE complex in heme trafficking and cytochrome c biosynthesis | Q36634263 | ||
| Topology and function of CcmD in cytochrome c maturation | Q36672773 | ||
| A conserved haem redox and trafficking pathway for cofactor attachment | Q37326485 | ||
| Cytochrome c biogenesis: mechanisms for covalent modifications and trafficking of heme and for heme-iron redox control. | Q37590030 | ||
| Cytochrome c biogenesis: the Ccm system | Q37728578 | ||
| Cytochrome c biogenesis in mitochondria--Systems III and V. | Q37898756 | ||
| Composition and function of cytochrome c biogenesis System II. | Q37940091 | ||
| Cytochrome c biogenesis System I. | Q37940545 | ||
| A bacterial cytochrome c heme lyase. CcmF forms a complex with the heme chaperone CcmE and CcmH but not with apocytochrome c. | Q38293884 | ||
| Heme Trafficking and Modifications during System I Cytochrome c Biogenesis: Insights from Heme Redox Potentials of Ccm Proteins. | Q39751772 | ||
| Cytochrome c biogenesis in bacteria: a possible pathway begins to emerge | Q40687207 | ||
| A pivotal heme-transfer reaction intermediate in cytochrome c biogenesis | Q40732482 | ||
| Bacterial cytochromes c biogenesis | Q41082614 | ||
| The interplay between the disulfide bond formation pathway and cytochrome c maturation in Escherichia coli | Q41767891 | ||
| The cytochrome c maturation components CcmF, CcmH, and CcmI form a membrane-integral multisubunit heme ligation complex | Q41961747 | ||
| The Escherichia coli cytochrome c maturation (Ccm) system does not detectably attach heme to single cysteine variants of an apocytochrome c. | Q44016921 | ||
| Interaction of heme with variants of the heme chaperone CcmE carrying active site mutations and a cleavable N-terminal His tag. | Q44376495 | ||
| The interaction of covalently bound heme with the cytochrome c maturation protein CcmE. | Q45091125 | ||
| Probing the heme-binding site of the cytochrome c maturation protein CcmE. | Q46141518 | ||
| Paracoccus denitrificans CcmG is a periplasmic protein-disulphide oxidoreductase required for c- and aa3-type cytochrome biogenesis; evidence for a reductase role in vivo | Q48049000 | ||
| The three mitochondrial encoded CcmF proteins form a complex that interacts with CCMH and c-type apocytochromes in Arabidopsis. | Q50457847 | ||
| The thioreduction component CcmG confers efficiency and the heme ligation component CcmH ensures stereo-specificity during cytochrome c maturation. | Q50932970 | ||
| Structurally Mapping Endogenous Heme in the CcmCDE Membrane Complex for Cytochrome c Biogenesis. | Q52362758 | ||
| Degradation of Cytochrome Oxidase Subunits in Mutants of Yeast Lacking Cytochrome c and Suppression of the Degradation by Mutation of yme1 | Q52509348 | ||
| Active-site properties of the oxidized and reduced C-terminal domain of DsbD obtained by NMR spectroscopy. | Q54440365 | ||
| Crystal structures of E. coli CcmG and its mutants reveal key roles of the N-terminal beta-sheet and the fingerprint region. | Q54454409 | ||
| Translocation to the periplasm and signal sequence cleavage of preapocytochrome c depend on sec and lep, but not on the ccm gene products. | Q54563998 | ||
| Synthesis of holo Paracoccus denitrificans cytochrome c550 requires targeting to the periplasm whereas that of holo Hydrogenobacter thermophilus cytochrome c552 does not. Implications for c-type cytochrome biogenesis. | Q54639737 | ||
| Overproduction of theBradyrhizobium japonicum c-Type Cytochrome Subunits of thecbb3Oxidase inEscherichia coli | Q59405866 | ||
| New insights into the role of CcmC, CcmD and CcmE in the haem delivery pathway during cytochrome c maturation by a complete mutational analysis of the conserved tryptophan-rich motif of CcmC | Q74347204 | ||
| Prototype of a heme chaperone essential for cytochrome c maturation | Q77125667 | ||
| Loss of ATP hydrolysis activity by CcmAB results in loss of c-type cytochrome synthesis and incomplete processing of CcmE | Q80124139 | ||
| P433 | issue | 43 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | cell biology | Q7141 |
| molecular biology | Q7202 | ||
| P1104 | number of pages | 13 | |
| P304 | page(s) | 16778-16790 | |
| P577 | publication date | 2018-09-11 | |
| P1433 | published in | Journal of Biological Chemistry | Q867727 |
| P1476 | title | The CcmC-CcmE interaction during cytochrome c maturation by System I is driven by protein-protein and not protein-heme contacts | |
| P478 | volume | 293 |
| Q90494637 | Complex Oxidation of Apocytochromes c during Bacterial Cytochrome c Maturation | cites work | P2860 |
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