Your search keyword '"Hill‐Skinner, Sarah"' showing total 2 results

1. The maize brown midrib4 ( bm4) gene encodes a functional folylpolyglutamate synthase.

Author

Li, Li, Hill‐Skinner, Sarah, Liu, Sanzhen, Beuchle, Danielle, Tang, Ho Man, Yeh, Cheng‐Ting, Nettleton, Dan, and Schnable, Patrick S.

Subjects

*COMPOSITION of corn, *TETRAHYDROFOLATE synthase, *PLANT mutation, *BIOACCUMULATION in plants, *PLANT chromosomes, *GENE mapping

Abstract

Mutations in the brown midrib4 (bm4) gene affect the accumulation and composition of lignin in maize. Fine-mapping analysis of bm4 narrowed the candidate region to an approximately 105 kb interval on chromosome 9 containing six genes. Only one of these six genes, GRMZM2G393334, showed decreased expression in mutants. At least four of 10 Mu-induced bm4 mutant alleles contain a Mu insertion in the GRMZM2G393334 gene. Based on these results, we concluded that GRMZM2G393334 is the bm4 gene. GRMZM2G393334 encodes a putative folylpolyglutamate synthase ( FPGS), which functions in one-carbon (C1) metabolism to polyglutamylate substrates of folate-dependent enzymes. Yeast complementation experiments demonstrated that expression of the maize bm4 gene in FPGS-deficient met7 yeast is able to rescue the yeast mutant phenotype, thus demonstrating that bm4 encodes a functional FPGS. Consistent with earlier studies, bm4 mutants exhibit a modest decrease in lignin concentration and an overall increase in the S:G lignin ratio relative to wild-type. Orthologs of bm4 include at least one paralogous gene in maize and various homologs in other grasses and dicots. Discovery of the gene underlying the bm4 maize phenotype illustrates a role for FPGS in lignin biosynthesis. [ABSTRACT FROM AUTHOR]

Published

2015

2. The maize brown midrib2 ( bm2) gene encodes a methylenetetrahydrofolate reductase that contributes to lignin accumulation.

Author

Tang, Ho Man, Liu, Sanzhen, Hill‐Skinner, Sarah, Wu, Wei, Reed, Danielle, Yeh, Cheng‐Ting, Nettleton, Dan, and Schnable, Patrick S.

Subjects

*CORN, *GENETIC code, *METHYLENETETRAHYDROFOLATE reductase, *LIGNINS, *BIOACCUMULATION in plants, *PLANT mutation, *REVERSE transcriptase polymerase chain reaction

Abstract

The midribs of maize brown midrib ( bm) mutants exhibit a reddish-brown color associated with reductions in lignin concentration and alterations in lignin composition. Here, we report the mapping, cloning, and functional and biochemical analyses of the bm2 gene. The bm2 gene was mapped to a small region of chromosome 1 that contains a putative methylenetetrahydrofolate reductase ( MTHFR) gene, which is down-regulated in bm2 mutant plants. Analyses of multiple Mu-induced bm2-Mu mutant alleles confirmed that this constitutively expressed gene is bm2. Yeast complementation experiments and a previously published biochemical characterization show that the bm2 gene encodes a functional MTHFR. Quantitative RT - PCR analyses demonstrated that the bm2 mutants accumulate substantially reduced levels of bm2 transcript. Alteration of MTHFR function is expected to influence accumulation of the methyl donor S-adenosyl- l -methionine ( SAM). Because SAM is consumed by two methyltransferases in the lignin pathway (Ye et al., ), the finding that bm2 encodes a functional MTHFR is consistent with its lignin phenotype. Consistent with this functional assignment of bm2, the expression patterns of genes in a variety of SAM-dependent or -related pathways, including lignin biosynthesis, are altered in the bm2 mutant. Biochemical assays confirmed that bm2 mutants accumulate reduced levels of lignin with altered composition compared to wild-type. Hence, this study demonstrates a role for MTHFR in lignin biosynthesis. [ABSTRACT FROM AUTHOR]

Published

2014