J A Mulder scite author profile

J A Mulder

2Publications

20Citation Statements Received

41Citation Statements Given

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Isolation and partial characterization of Bacillus subtilis mutants impaired in DNA entry

Mulder¹,

Venema²

1982

J Bacteriol

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Transformation-deficient mutants of Bacillus subtilis have been identified either by screening for a nuclease-deficient phenotype on methyl green-DNA agar or for nontransformability on transforming DNA-containing agar. After purification of the mutations causing a reduction in the entry of DNA, a set of isogenic entrydeficient strains was obtained. In addition to being entry deficient to various extents, the strains usually were less capable of association with DNA than the entry-proficient parent. Likewise, the specific transforming activity in the purified mutant strains continued to be less than that in the wild type. With the possible exception of one strain, no evidence was obtained that the mutant strains were impaired in recombination. Since the breakdown of transforming DNA to acidsoluble products correlated fairly well with the residual capacity of the strains to take up DNA, nucleolytic activity is likely to be involved in the entry of DNA in B. subtilis.

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Transformation-deficient mutants of Bacillus subtilis impaired in competence-specific nuclease activities

Mulder¹,

Venema²

1982

J Bacteriol

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A comparison of the nucleolytic activities in competent and physiologically low-competent wild-type cultures of Bacillus subtilis in DNA-containing sodium dodecyl sulfate-polyacrylamide gels revealed the existence of three competence-associated nuclease activities with apparent molecular weights of 13,000, 15,000, and 26,000. The three activities, which were dependent on manganese or magnesium ions, were specifically present in the competent fraction of a competent culture. The competence-associated nucleolytic activities of eight transformation-defective mutant strains were assayed, resulting in the following three classes of mutants: (i) four strains which, according to this assay, were not impaired in any of the nucleolytic activities mentioned above; (ii) one strain which was strongly impaired in the 13,000- and 26,000-molecular-weight activities, but showed a considerable level of the 15,000-molecular-weight activity; and (iii) three strains which were severely impaired in all three activities. The results indicated that the 26,000-molecular-weight activity was a dimer of the 13,000-molecular-weight activity and that this nuclease was involved in the entry of DNA.

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J A Mulder

Isolation and partial characterization of Bacillus subtilis mutants impaired in DNA entry

Transformation-deficient mutants of Bacillus subtilis impaired in competence-specific nuclease activities

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