Sérgio H. Brommonshenkel scite author profile

Despite extensive studies in plant virus-host interactions, the molecular mechanisms of geminivirus movement and interactions with host components remain largely unknown. A tomato kinase protein and its soybean homolog were found to interact specifically with the nuclear shuttle protein (NSP) of Tomato golden mosaic virus (TGMV) and Tomato crinkle leaf yellows virus (TCrLYV) through yeast two-hybrid screening and in vitro protein binding assays. These proteins, designated LeNIK (Lycopersicon esculentum NSP-Interacting Kinase) and GmNIK (Glycine max NIK), belong to the LRR-RLK (leucine rich-repeat receptor-like kinase) family that is involved in plant developmental processes and/or resistance response. As such, NIK is structurally organized into characteristic domains, including a serine/threonine kinase domain with a nucleotide binding site at the C-terminal region, an internal transmembrane segment and leucine-rich repeats (LRR) at the N-terminal portion. The potential significance of the NSP-NIK interaction is discussed.

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Mapeamento de genes de resistência do feijoeiro à ferrugem, antracnose e mancha-angular usando marcadores RAPD

Faleiro

Ragagnin²,

Schuster³

et al. 2003

Fitopatol. bras.

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A organização de diferentes genes de resistência da cultivar Ouro Negro de feijoeiro-comum (Phaseolus vulgaris) à ferrugem, antracnose e mancha-angular foi estudada com o auxílio de marcadores moleculares. Uma população de 154 linhas endogâmicas recombinantes (RIL's) obtidas do cruzamento entre as cultivares Ouro Negro e Rudá foram inoculadas com sete raças fisiológicas de Uromyces appendiculatus, três de Colletotrichum lindemuthianum, e quatro de Phaeoisariopsis griseola. Amostras de DNA de cada uma das RIL's foram amplificadas via PCR utilizando 70 diferentes primers. A análise da segregação da resistência à ferrugem, antracnose e mancha-angular na população de 154 RIL's revelou diferentes modos de herança para a resistência a cada uma das raças fisiológicas. A análise de ligação genética revelou que os diferentes genes de resistência à ferrugem e à antracnose estão no mesmo grupo de ligação. Os genes de resistência à mancha-angular também foram mapeados juntos, porém em outro grupo de ligação. Verificou-se neste trabalho que a utilidade dos marcadores RAPD, previamente identificados como ligados a genes de resistência do feijoeiro a doenças foi restrita. Apenas cinco dos 38 marcadores moleculares testados foram validados na população de RIL's como ligados aos genes de resistência à ferrugem e à antracnose. Três novos marcadores (OBA16(669) e OBA16(583) a 10,4 cM em acoplamento e OAD9(3210) a 13,9 cM em repulsão) ligados ao bloco gênico de resistência da cultivar Ouro Negro à mancha-angular foram identificados.

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The EgMUR3 xyloglucan galactosyltransferase from Eucalyptus grandis complements the mur3 cell wall phenotype in Arabidopsis thaliana

Lopes

Pauly

Brommonshenkel

et al. 2010

Tree Genetics & Genomes

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Xyloglucan is the major hemicellulosic polymer found in the primary cell walls of dicots. Xyloglucan tethers cellulose microfibrils conferring rigidity and strength for maintenance of cell integrity, and it is thought that its metabolism contributes to cell elongation and thus plant growth. Here, we have cloned and characterized a Eucalyptus grandis gene ortholog of the Arabidopsis thaliana MUR3 gene (xyloglucan galactosyltransferase), thus termed EgMUR3. EgMUR3 represents an intronless sequence of 1,854 bp predicted to encode a protein of 617 amino acid residues. It exhibits 73% identity and 82% similarity to the A. thaliana MUR3 gene. To demonstrate that this gene encodes a functional enzyme, the putative ORF was cloned into a binary vector under the control of a constitutive promoter and transformed into the A. thaliana mur3 mutant. The effect of the genetic complementation was investigated by xyloglucan oligosaccharide fingerprinting of wall material. The results confirmed that EgMUR3 represents indeed a xyloglucan galactosyltransferase of E. grandis able to use endogenous substrate(s) in A. thaliana, suggesting that both species share common steps in xyloglucan biosynthesis.

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