Pei Hua Chen scite author profile

Gray mold (Botrytis cinerea) is one of the most common diseases of strawberries (Fragaria × ananassa Duchesne) worldwide. Although many chemical fungicides are used for controlling the growth of B. cinerea, the risk of the fungus developing chemical resistance together with consumer demand for reducing the use of chemical fungicides have necessitated an alternative method to control this pathogen. Various naturally occurring microbes aggressively attack plant pathogens and benefit plants by suppressing diseases; these microbes are referred to as biocontrol agents. However, screening of potent biocontrol agents is essential for their further development and commercialization. In this study, 24 strains of yeast with antagonistic ability against gray mold were isolated, and the antifungal activity of the volatile and diffusible metabolites was evaluated. Putative mechanisms of action associated with the biocontrol capacity of yeast strains against B. cinerea were studied through in vitro and in vivo assays. The volatile organic compounds produced by the Galactomyces candidum JYC1146 could be useful in the biological control of plant pathogens and therefore are potential alternative fungicides with low environmental impact.

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DNA helicase associated with DNA polymerase .alpha.: Isolation by a modified immunoaffinity chromatography

Biswas

Chen²,

Biswas³

1993

Biochemistry

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We have developed a novel immunoaffinity method for isolating a DNA polymerase alpha-associated DNA helicase from the yeast Saccharomyces cerevisiae. Earlier we have reported the characterization of a DNA helicase activity associated with the multiprotein DNA polymerase alpha complex from yeast [Biswas, E. E., Ewing, C. M., & Biswas, S. B. (1993) Biochemistry 32, 3030-3027]. We report here the isolation of the DNA helicase from the DNA polymerase alpha (pol alpha) complex bound to an anti-pol alpha immunoaffinity matrix. The DNA helicase activity eluted at approximately 0.35 M NaCl concentration. The eluted ATPase/helicase peak was further purified by size-exclusion high-performance liquid chromatography (HPLC). At low ionic strength (50 mM NaCl), it remained associated with other proteins and eluted as a large polypeptide complex. At high ionic strength (500 mM NaCl), the helicase dissociated, and the eluted ATPase/helicase fraction contained 90-, 60-, and 50-kDa polypeptides. Photoaffinity cross-linking of helicase with ATP during the isolation process demonstrated a 90-kDa polypeptide to be the likely ATP binding component of the helicase protein. The DNA helicase has single-stranded DNA (ssDNA)-stimulated ATPase and dATPase activities. The ATPase activity was stimulated by yeast replication protein A (RPA). The DNA helicase activity was stimulated by Escherichia coli ssDNA binding protein and RPA. The DNA helicase migrated on a DNA template in the 5'-->3' direction which is also the overall direction of migration of pol alpha on the lagging strand of the replication fork.(ABSTRACT TRUNCATED AT 250 WORDS)

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Purification and Characterization of DNA Polymerase α-Associated Replication Protein A-Dependent Yeast DNA Helicase A

Biswas¹,

Chen

Biswas

1997

Biochemistry

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A novel, eukaryotic, hexameric DNA helicase that was earlier identified as a component of the multiprotein polymerase alpha complex [Biswas et al. (1993) Biochemistry 32, 13393-13398] has been purified to homogeneity and characterized. Thus far, our studies demonstrated that helicase A shares certain unique features of two other hexameric DNA helicases: the DnaB helicase of Escherichia coli and the T-antigen helicase of the SV40 virus. The helicase activity was stimulated by yeast replication protein A (RPA) and to a lower extent by E. coli single-stranded DNA binding protein (SSB). The helicase had an apparent molecular mass of 90 kDa, as determined by its mobility on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. A tryptic peptide fragment of the polypeptide was sequenced followed by a BLAST search of GenBank with the tryptic peptide sequence. The search identified a 1.8 kb open reading frame previously designated as ykl017c on chromosome XI, that codes for a 78.3 kDa (683 amino acid) polypeptide. The important features of the polypeptide sequence of helicase A included a type I ATP/GTP binding motif, and a K E E R R L N V A M T R P R R sequence at the C-terminus that may be indicative of a nuclear localization signal which is required of a nuclear DNA helicase. The polypeptide sequence of helicase A appears to have homology to the DnaB helicase of E. coli (approximately 25%). The facts that these two helicases are vastly separated by evolution and retained similar structural and functional features, as demonstrated here, point to a possible significance of this limited homology. Although the amount of purified helicase A was limited, we have carried out necessary enzymatic characterization so that these data could be correlated with that of immunoaffinity-purified helicase A and recombinant helicase A expressed in heterologous systems.

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Yeast DNA Helicase A: Cloning, Expression, Purification, and Enzymatic Characterization

et al. 1997

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We have cloned and expressed the yeast DNA helicase A in Escherichia coli at a high level (approximately 30 mg/L of culture) in soluble form. We describe here a simple two-step purification protocol that produces reasonable quantities of homogeneous enzyme. In denaturing gel electrophoresis the enzyme behaved as a approximately 90 kDa protein. The native structure, determined by gel-filtration studies, appeared to be hexameric and its quaternary structure was salt (NaCl) dependent. In low-salt buffers (containing 50 mM NaCl), the enzyme eluted in a single activity peak at an elution volume that appeared to correlate with a possible hexameric structure. In higher salt buffer (containing greater than 150 mM NaCl), the enzyme eluted as smaller assemblies (monomer/dimer). The recombinant helicase A was able to hydrolyze ATP or dATP with equal efficiency. The ATPase activity of the enzyme was absolutely DNA-dependent. The nucleotidase activities were comparable to those of the native enzyme. Kinetic analysis of the ATPase activity demonstrated that the Km of the enzyme was approximately 90 microM and the rate of ATP hydrolysis was approximately 20 ATP s-1 molecule-1. DNA sequences containing pyrimidine stretches were more effective activators than those containing purine stretches. However, poly(dC) appeared to be the most effective activator of the ATPase activity. The ATPase activity was inhibited by salt (NaCl) above 50 mM with a half-maximal inhibition at approximately 110 mM. It is likely that the active state of helicase A is hexameric. The helicase activity of the recombinant enzyme was stimulated significantly by the yeast replication protein A (RPA) and to a lower extent by the single-stranded DNA binding protein of E. coli (SSB). The DNA helicase migrated on a DNA template in a 5' --> 3' direction. Helicase A appeared to share a number of enzymatic characteristics including directionality, stimulation by RPA/SSB, and quaternary structure (monomer-hexamer) dynamics that are common to known replicative helicases such as DnaB helicase and the SV40 T-antigen.

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Purification and characterization of a yeast DNA polymerase .alpha. complex with associated primase, 5'.fwdarw.3' exonuclease, and DNA-dependent ATPase activities

Biswas

Chen²,

Gray³

et al. 1993

Biochemistry

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We have purified a multimeric form of yeast DNA polymerase alpha with DNA polymerase, primase, 5'-->3' exonuclease, and single-stranded (ss) DNA-dependent ATPase activities to near-homogeneity. The molecular mass of complex was 650 kDa with subunits ranging in sizes from 30 to 180 kDa. The alpha-subunit of the complex could be detected by DNA polymerase alpha antibody. No cross-reactivity of polypeptides within the complex was observed with antibodies directed against polymerase delta or epsilon. The multimeric polymerase alpha could be selectively inhibited by p-n-butylphenyl-dGTP (I50 of approximately 0.2 microM), p-n-butylanilino-dATP (I50 of 1.3 microM), and aphidicolin (I50 of 2.5 micrograms/mL). The complex synthesized RNA primers on various ssDNA templates and rapidly elongated these primers into nascent DNA fragments in the presence of required deoxynucleotides. It has a strong 5'-->3' exonuclease activity. In addition, the complex hydrolyzed both ATP and dATP in a ssDNA-dependent manner. Thus, the multiprotein complex of DNA polymerase alpha had multiple activities (primase, polymerase, and ATPase) which could act concertedly to synthesize primers and elongate the primers to nascent DNA fragments in the lagging strand of the fork.

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Pei Hua Chen

Screening and Evaluation of Yeast Antagonists for Biological Control ofBotrytis cinereaon Strawberry Fruits

DNA helicase associated with DNA polymerase .alpha.: Isolation by a modified immunoaffinity chromatography

Purification and Characterization of DNA Polymerase α-Associated Replication Protein A-Dependent Yeast DNA Helicase A

Yeast DNA Helicase A: Cloning, Expression, Purification, and Enzymatic Characterization

Purification and characterization of a yeast DNA polymerase .alpha. complex with associated primase, 5'.fwdarw.3' exonuclease, and DNA-dependent ATPase activities

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