Andrew P. Kloek scite author profile

SummaryA new allele of the coronatine-insensitive locus (COI1) was isolated in a screen for Arabidopsis thaliana mutants with enhanced resistance to the bacterial pathogen Pseudomonas syringae. This mutant, designated coi1-20, exhibits robust resistance to several P. syringae isolates but remains susceptible to the virulent pathogens Erisyphe and cauli¯ower mosaic virus. Resistance to P. syringae strain PstDC3000 in coi1-20 plants is correlated with hyperactivation of PR-1 expression and accumulation of elevated levels of salicylic acid (SA) following infection, suggesting that the SA-mediated defense response pathway is sensitized in this mutant. Restriction of growth of PstDC3000 in coi1-20 leaves is partially dependent on NPR1 and fully dependent on SA, indicating that SA-mediated defenses are required for restriction of PstDC3000 growth in coi1-20 plants. Surprisingly, despite high levels of PstDC3000 growth in coi1-20 plants carrying the salicylate hydroxylase (nahG) transgene, these plants do not exhibit disease symptoms. Thus resistance to P. syringae in coi1-20 plants is conferred by two different mechanisms: (i) restriction of pathogen growth via activation of the SA-dependent defense pathway; and (ii) an SA-independent inability to develop disease symptoms. These ®ndings are consistent with the hypotheses that the P. syringae phytotoxin coronatine acts to promote virulence by inhibiting host defense responses and by promoting lesion formation.

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Common deletions and SNPs are in linkage disequilibrium in the human genome

Hinds

et al. 2005

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Humans show great variation in phenotypic traits such as height, eye color and susceptibility to disease. Genomic DNA sequence differences among individuals are responsible for the inherited components of these complex traits. Reports suggest that intermediate and large-scale DNA copy number and structural variations are prevalent enough to be an important source of genetic variation between individuals. Because association studies to identify genomic loci associated with particular phenotypic traits have focused primarily on genotyping SNPs, it is important to determine whether common structural polymorphisms are in linkage disequilibrium with common SNPs, and thus can be assessed indirectly in SNP-based studies. Here we examine 100 deletion polymorphisms ranging from 70 bp to 7 kb. We show that common deletions and SNPs ascertained with similar criteria have essentially the same distribution of linkage disequilibrium with surrounding SNPs, indicating that these polymorphisms may share evolutionary history and that most deletion polymorphisms are effectively assayed by proxy in SNP-based association studies.

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Identification and Characterization of a Well-Defined Series of Coronatine Biosynthetic Mutants of Pseudomonas syringae pv. tomato DC3000

Brooks¹,

Hernández-Guzmán²,

Kloek³

et al. 2004

MPMI

212

215

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To identify Pseudomonas syringae pv. tomato genes involved in pathogenesis, we carried out a screen for Tn5 mutants of P. syringae pv. tomato DC3000 with reduced virulence on Arabidopsis thaliana. Several mutants defining both known and novel virulence loci were identified. Six mutants contained insertions in biosynthetic genes for the phytotoxin coronatine (COR). The P. syringae pv. tomato DC3000 COR genes are chromosomally encoded and are arranged in two separate clusters, which encode enzymes responsible for the synthesis of coronafacic acid (CFA) or coronamic acid (CMA), the two defined intermediates in COR biosynthesis. High-performance liquid chromatography fractionation and exogenous feeding studies confirmed that Tn5 insertions in the cfa and cma genes disrupt CFA and CMA biosynthesis, respectively. All six COR biosynthetic mutants were significantly impaired in their ability to multiply to high levels and to elicit disease symptoms on A. thaliana plants. To assess the relative contributions of CFA, CMA, and COR in virulence, we constructed and characterized cfa6 cmaA double mutant strains. These exhibited virulence phenotypes on A. thalliana identical to those observed for the cmaA or cfa6 single mutants, suggesting that reduced virulence of these mutants on A. thaliana is caused by the absence of the intact COR toxin. This is the first study to use biochemically and genetically defined COR mutants to address the role of COR in pathogenesis.

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The structure of Ascaris hemoglobin domain I at 2.2 A resolution: molecular features of oxygen avidity.

Yang

Kloek

Goldberg

et al. 1995

Proc. Natl. Acad. Sci. U.S.A.

124

119

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The perienteric hemoglobin of the parasitic nematode Ascaris has an exceptionally high affinity for oxygen. It (6, 7). In addition, each subunit contains a highly charged C-terminal tail of 23 residues, which in part may be responsible for octamerization of the subunits (6, 7). The functional role ofAscaris hemoglobin is not clear, since the rate of oxygen release (half-time of several minutes) is too slow for normal delivery.The two globin domains of Ascaris hemoglobin are highly homologous; they have 62% amino acid sequence identity with no insertions or deletions over a stretch of 149 residues (6, 7). The domains are similar to those of a hemoglobin with equally high oxygen affinity from the closely related nematode Pseudoterranova decipiens (8). Domain 1 (D1) ofAscaris hemoglobin has been cloned and expressed in Escherichia coli and shown to be monomeric in solution (9). The spectral properties and oxygen-binding affinity are similar to those of the native octameric hemoglobin, indicating that the oxygen-binding properties are independent of domain association or oligomerization.The nature of the high oxygen affinity has been studied kinetically by analysis of the protein sequence and by mutagenesis (1)(2)(3)(10)(11)(12) when replaced by Phe in myoglobin, increases its oxygen affinity 10-fold (13), though when replaced by Tyr, the affinity decreases (10), probably due to steric hindrance in the myoglobin pocket.Evidence for the importance of the B10 and E7 residues in oxygen affinity arises from mutagenesis studies of D1 of Ascaris hemoglobin (11,12

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The Pseudomonas syringae avrRpt2 Gene Product Promotes Pathogen Virulence from Inside Plant Cells

Chen¹,

Kloek²,

Boch³

et al. 2000

MPMI

127

113

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Several bacterial avr genes have been shown to contribute to virulence on susceptible plants lacking the corresponding resistance (R) gene. The mechanisms by which avr genes promote parasitism and disease, however, are not well understood. We investigated the role of the Pseudomonas syringae pv. tomato avrRpt2 gene in pathogenesis by studying the interaction of P. syringae pv. tomato strain PstDC3000 expressing avrRpt2 with several Arabidopsis thaliana lines lacking the corresponding R gene, RPS2. We found that PstDC3000 expressing avrRpt2 grew to significantly higher levels and often resulted in the formation of more severe disease symptoms in ecotype No-0 plants carrying a mutant RPS2 allele, as well as in two Col-0 mutant lines, cpr5 rps2 and coil rps2, that exhibit enhanced resistance. We also generated transgenic A. thaliana lines expressing avrRpt2 and demonstrated, by using several different assays, that expression of avrRpt2 within the plant also promotes virulence of PstDC3000. Thus, AvrRpt2 appears to promote pathogen virulence from within the plant cell.

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Andrew P. Kloek

Resistance to Pseudomonas syringae conferred by an Arabidopsis thaliana coronatine‐insensitive (coi1) mutation occurs through two distinct mechanisms

Common deletions and SNPs are in linkage disequilibrium in the human genome

Identification and Characterization of a Well-Defined Series of Coronatine Biosynthetic Mutants of Pseudomonas syringae pv. tomato DC3000

The structure of Ascaris hemoglobin domain I at 2.2 A resolution: molecular features of oxygen avidity.

The Pseudomonas syringae avrRpt2 Gene Product Promotes Pathogen Virulence from Inside Plant Cells

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