Juan Davagnino scite author profile

A 45-kDa membrane polypeptide that is associated with activity of the particulate methane monooxygenase (pMMO) has been purified from three methanotrophic bacteria, and the N-terminal amino acid sequence was found to be identical in 17 of 20 positions for all three polypeptides and identical in 14 of 20 positions for the N terminus of AmoB, the 43-kDa subunit of ammonia monooxygenase. DNA from a variety of methanotrophs was screened with two probes, an oligonucleotide designed from the N-terminal sequence of the 45-kDa polypeptide from Methylococcus capsulatus Bath and an internal fragment of amoA, which encodes the 27-kDa subunit of ammonia monooxygenase. In most cases, two hybridizing fragments were identified with each probe. Three overlapping DNA fragments containing one of the copies of the gene encoding the 45-kDa pMMO polypeptide (pmoB) were cloned from Methylococcus capsulatus Bath. A 2.1-kb region was sequenced and found to contain both pmoB and a second gene, pmoA. The predicted amino acid sequences of these genes revealed high identity with those of the gene products of amoB and amoA, respectively. Further hybridization experiments with DNA from Methylococcus capsulatus Bath and Methylobacter albus BG8 confirmed the presence of two copies of pmoB in both strains. These results suggest that the 45-and 27-kDa pMMO-associated polypeptides of methanotrophs are subunits of the pMMO and are present in duplicate gene copies in methanotrophs.Methanotrophs are a group of gram-negative bacteria that utilize methane as their sole source of carbon and energy. The initial transformation involves the conversion of methane into methanol by methane monooxygenase (MMO):

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Lyophilized Drug Product Cake Appearance: What Is Acceptable?

Patel¹,

Nail

Pikal

et al. 2017

Journal of Pharmaceutical Sciences

163

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The DNA replication inhibitor microcin B17 is a forty‐three‐amino‐acid protein containing sixty percent glycine

et al. 1986

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Microcin B17 is a low-molecular-weight protein that inhibits DNA replication in a number of enteric bacteria. It is produced by bacterial strains which harbor a 70-kilobase plasmid called pMccB17. Four plasmid genes (named mcbABCD) are required for its production. The product of the mcbA gene was identified by labelling minicells. The mcbA gene product was slightly larger when a mutation in any of the other three production genes was present. This indicates that these genes are involved in processing the primary mcbA product to yield the active molecule. The mcbA gene product predicted from the nucleotide sequence has 69 amino acids including 28 glycine residues. Microcin B17 was extracted from the cells by boiling in 100 mM acetic acid, 1 mM EDTA, and purified to homogeneity in a single step by high-performance liquid chromatography through a C18 column. The N-terminal amino acid sequence and amino acid composition demonstrated that mcbA is the structural gene for microcin B17. The active molecule is a processed product lacking the first 26 N-terminal residues. The 43 remaining residues include 26 glycines. While microcin B17 is an exported protein, the cleaved N-terminal peptide does not have the characteristic properties of a "signal sequence", which suggests that it is secreted by a mechanism different from that used by most secreted proteins of E. coli.

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The carboxy-terminal portion of the CheA kinase mediates regulation of autophosphorylation by transducer and CheW

1993

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The CheA kinase is a central protein in the signal transduction network that controls chemotaxis in Escherichia coli. CheA receives information from a transmembrane receptor (e.g., Tar) and CheW proteins and relays it to the CheB and CheY proteins. The biochemical activities of CheA proteins truncated at various distances from the carboxy terminus were examined. The carboxy-terminal portion of CheA regulates autophosphorylation in response to environmental signals transmitted through Tar and CheW. The central portion of CheA is required for autophosphorylation and is also presumably involved in dimer formation. The amino-terminal portion of CheA was previously shown to contain the site of autophosphorylation and to be able to transfer the phosphoryl group to CheB and CheY. These studies further delineate three functional domains of the CheA protein.

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The maturation pathway of microcin B17, a peptide inhibitor of DNA gyrase

Yorgey

Davagnino

Kolter

1993

Molecular Microbiology

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The maturation pathway of microcin B17 (MccB17), a ribosomally synthesized peptide antibiotic which inhibits DNA gyrase, has been characterized. Synthesis of MccB17 involves several steps beginning with the translation of the MccB17 structural gene, mcbA, to yield a 69 amino acid precursor, preMccB17. Pre-MccB17 is then modified and folded by the action of three gene products, McbBCD, to yield proMccB17. Mutations in mcbA were isolated that permit modifications of the resulting mutant peptides, but prevent folding, suggesting that modification and folding are sequential steps. ProMccB17 is subsequently converted to MccB17 by removal of the N-terminal 26-amino-acid leader by a chromosomally encoded protease. Removal of the leader resulted in aggregation of the peptide, suggesting that the leader may function to maintain peptide solubility during synthesis in the cell. Finally, polyclonal antibodies raised against MccB17 recognize both MccB17 and proMccB17, but do not recognize preMccB17. This demonstrates the dramatic structural changes that result from the modifications and has been used to distinguish intermediates in the steps of maturation.

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Juan Davagnino

Particulate methane monooxygenase genes in methanotrophs

Lyophilized Drug Product Cake Appearance: What Is Acceptable?

The DNA replication inhibitor microcin B17 is a forty‐three‐amino‐acid protein containing sixty percent glycine

The carboxy-terminal portion of the CheA kinase mediates regulation of autophosphorylation by transducer and CheW

The maturation pathway of microcin B17, a peptide inhibitor of DNA gyrase

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