Your search keyword '"Reiguang Ming"' showing total 7 results

1. General Resistance in Maize to Southern Rust (Puccinia polysora Underw.)

Author

Aleksander David L. Josue, Manuel Logroño, Yoon Sup So, Hyeon Gui Moon, Xiao Wu Lu, James L. Brewbaker, Soon Kwon Kim, and Reiguang Ming

Subjects

Heterosis, food and beverages, Tropical disease, Tropics, Locus (genetics), Quantitative trait locus, Biology, Heritability, medicine.disease, Diallel cross, Agronomy, Inbred strain, medicine, Agronomy and Crop Science

Abstract

Southern corn rust (Puccinia polysora Underw.) is a major tropical disease that can lead to severe yield losses in the tropics. Occasionally it becomes of concern in temperate regions, as in 2010. We summarize 45 yr of research on the occurrence, genetic basis, and breeding of general resistance. Trials were conducted in Colombia, Hawaii, Nigeria, the Philippines, Texas, and Thailand. Temperate maize proved uniformly susceptible. No racially specific monogenes were effective. Resistance varied continuously among tropical inbreds and many of these showed stable intermediate tolerance. Two diallel populations revealed high correlations of inbred values with hybrid array means and slight heterosis for resistance. Narrow-sense heritabilities were 51% and 66%, and mean square ratios for general to specific combining ability (GCA:SCA) were 7.8 and 10.7 to 1. Generation mean analyses were performed on six sets of families. Mean and additive effects were significant across families, while significant nonadditive effects were rare. Heritability values ranged from 19% to 49%. A set of recombinant lines segregated a primary susceptibility locus on chromosome 6. Studies of 137 near-isogenic inbred lines (NILs) of resistant tropical inbred Hi27 revealed a dominant susceptibility quantitative trait locus (QTL) in the NIL for dwarf-1 locus, but linkage could not be confirmed. Premature senescence was associated with rust infections in many NILs, emphasizing the ubiquity of modifying genes. No correlation existed between resistance to southern and common rusts. Resistant tropical inbreds and populations were bred to serve as sources for future improvement.

Published

2011

2. Molecular dissection of complex traits in autopolyploids: mapping QTLs affecting sugar yield and related traits in sugarcane

Author

Yw. Wang, James E. Irvine, Xavier Draye, Reiguang Ming, Paul H. Moore, and Andrew H. Paterson

Subjects

Genetics, biology, Saccharum spontaneum, food and beverages, General Medicine, Quantitative trait locus, biology.organism_classification, Transgressive segregation, Saccharum, chemistry.chemical_compound, Saccharum officinarum, chemistry, Genetic marker, Molecular marker, Allele, Agronomy and Crop Science, Biotechnology

Abstract

Mapping quantitative trait loci (QTLs) for sugar yield and related traits will provide essential information for sugarcane improvement through marker-assisted selection. Two sugarcane segregating populations derived from interspecific crosses between Saccharum offinarum and Saccharum spontaneum with 264 and 239 individuals, respectively, were evaluated in three replications each for field performance from 1994 to 1996 at Weslaco, Texas. These two populations were analyzed for a total of 735 DNA marker loci to seek QTLs for sugar yield, pol, stalk weight, stalk number, fiber content and ash content. Among the 102 significant associations found between these six traits and DNA markers, 61 could be located on sugarcane linkage maps, while the other 41 were associated with unlinked DNA markers. Fifty of the 61 mapped QTLs were clustered in 12 genomic regions of seven sugarcane homologous groups. Many cases in which QTLs from different genotypes mapped to corresponding locations suggested that at least some of the QTLs on the same cluster might be different allelic forms of the same genes. With a few exceptions that explained part of the transgressive segregation observed for particular traits, the allele effects of most QTLs were consistent with the parental phenotype from which the allele was derived. Plants with a high sugar yield possessed a large number of positive QTLs for sugar yield components and a minimal number of negative QTLs. This indicates the potential effectiveness of marker-assisted selection for sugar yield in sugarcane.

Published

2002

3. Comparative Genomics of Plant Chromosomes

Author

Reiguang Ming, Christine G. Elsik, C. S. Katsar, Chun-Xiao Jiang, Andrew H. Paterson, Yann-Rong Lin, Xavier Draye, Tien-Hung Lan, Mark D. Burow, John E. Bowers, and Robert J. Wright

Subjects

Comparative genomics, Genetics, medicine.medical_specialty, Genomics, Cell Biology, Plant Science, Plants, Biology, Quantitative trait locus, Genetic analysis, Genome, Chromosomes, Genomics Article, DNA sequencing, Gene mapping, Molecular genetics, medicine

Abstract

Comparative genomics, the study of similarities and differences in structure and function of the hereditary information in different taxa, uses molecular tools to investigate notions that far preceded the discovery that DNA was the hereditary molecule. Vavilov’s (1922) “law of homologous series in variation” was an early suggestion of the possibility of underlying commonality in the genetic blueprints of different (plant) species. In plants, genetic analysis based upon morphological and isozyme markers provided early hints that the arrangements of genes along the chromosomes of various taxa may have retained parallels since their divergence from common ancestors. DNA-level investigations in diverse taxa point to two broad messages: (1) The small but essential portion of most plant genomes encoding genes evolves relatively slowly, with corresponding genes retaining recognizable DNA sequences and similar order along the chromosomes of taxa that have been reproductively-isolated for millions of years. (2) A wide range of factors, such as DNA sequence mobility, gene deletion, and localized rearrangements, are superimposed on the relatively slow tempo of chromosomal evolution and cause many deviations from co-linearity. (3) Genetic loci that account for common phenotypes in different taxa are often at corresponding genomic locations, and may represent orthologous genes or members of orthologous clusters of genes.

Published

2000

4. Comparative Genomics of Plant Chromosomes

Author

Andrew H. Paterson, John E. Bowers, Mark D. Burow, Xavier Draye, Christine G. Elsik, Chun-Xiao Jiang, Catherine Susan Katsar, Tien-Hung Lan, Yann-Rong Lin, Reiguang Ming, and Robert J. Wright

Subjects

Cell Biology, Plant Science

Published

2000

5. General Resistance in Maize to Southern Rust (Puccinia polysora Underw.).

Author

Brewbaker, James L., Soon Kwon Kim, Yoon Sup So, Logroño, Manuel, Hyeon Gui Moon, Reiguang Ming, Xiao Wu Lu, and Josue, Aleksander D.

Subjects

CORN disease & pest resistance, PUCCINIA sorghi, CROP yields, TEMPERATE climate, LOCUS (Genetics)

Abstract

Southern corn rust (Puccinia polysora Underw.) is a major tropical disease that can lead to severe yield losses in the tropics. Occasionally it becomes of concern in temperate regions, as in 2010. We summarize 45 yr of research on the occurrence, genetic basis, and breeding of general resistance. Trials were conducted in Colombia, Hawaii, Nigeria, the Philippines, Texas, and Thailand. Temperate maize proved uniformly susceptible. No racially specific monogenes were effective. Resistance varied continuously among tropical inbreds and many of these showed stable intermediate tolerance. Two diallel populations revealed high correlations of inbred values with hybrid array means and slight heterosis for resistance. Narrow-sense heritabilities were 51% and 66%, and mean square ratios for general to specific combining ability (GCA:SCA) were 7.8 and 10.7 to 1. Generation mean analyses were performed on six sets of families. Mean and additive effects were significant across families, while significant nonadditive effects were rare. Heritability values ranged from 19% to 49%. A set of recombinant lines segregated a primary susceptibility locus on chromosome 6. Studies of 137 near-isogenic inbred lines (NILs) of resistant tropical inbred Hi27 revealed a dominant susceptibility quantitative trait locus (QTL) in the NIL for dwarf-1 locus, but linkage could not be confirmed. Premature senescence was associated with rust infections in many NILs, emphasizing the ubiquity of modifying genes. No correlation existed between resistance to southern and common rusts. Resistant tropical inbreds and populations were bred to serve as sources for future improvement. [ABSTRACT FROM AUTHOR]

Published

2011

6. A high-density genetic recombination map of sequence-tagged sites for Sorghum, as a framework for comparative structural and evolutionary genomics of tropical grains and grasses

Author

Alison H Hoppe, Sharon E. Mitchell, Yann-Rong Lin, Sin-Chieh Liu, Lijun Luo, Colette A. Abbey, Russell Jessup, Zhikang Li, C. Chang, D. Neil Skinner, Stephen Kresovich, Jennifer Lennington, Kim P. Reischmann, Yue-Wen Wang, Stefan R. Schulze, K. F. Schertz, Reiguang Ming, Cornelia Lemke, Barry S. Marler, Andrew H. Paterson, S. Anderson, Dou Qiang, John E. Bowers, and Xavier Draye

Subjects

Genetic Markers, Recombination, Genetic, Genetics, Comparative genomics, biology, Chromosome Mapping, food and beverages, Genomics, Poaceae, biology.organism_classification, Biological Evolution, Genetic recombination, Sequence-tagged site, Genetic marker, Hybridization, Genetic, Restriction fragment length polymorphism, Triticeae, Genome, Plant, Sorghum, Genes, Dominant, Sequence Tagged Sites, Research Article, Synteny

Abstract

We report a genetic recombination map for Sorghum of 2512 loci spaced at average 0.4 cM (∼300 kb) intervals based on 2050 RFLP probes, including 865 heterologous probes that foster comparative genomics of Saccharum (sugarcane), Zea (maize), Oryza (rice), Pennisetum (millet, buffelgrass), the Triticeae (wheat, barley, oat, rye), and Arabidopsis. Mapped loci identify 61.5% of the recombination events in this progeny set and reveal strong positive crossover interference acting across intervals of ≤50 cM. Significant variations in DNA marker density are related to possible centromeric regions and to probable chromosome structural rearrangements between Sorghum bicolor and S. propinquum, but not to variation in levels of intraspecific allelic richness. While cDNA and genomic clones are similarly distributed across the genome, SSR-containing clones show different abundance patterns. Rapidly evolving hypomethylated DNA may contribute to intraspecific genomic differentiation. Nonrandom distribution patterns of multiple loci detected by 357 probes suggest ancient chromosomal duplication followed by extensive rearrangement and gene loss. Exemplifying the value of these data for comparative genomics, we support and extend prior findings regarding maize-sorghum synteny—in particular, 45% of comparative loci fall outside the inferred colinear/syntenic regions, suggesting that many small rearrangements have occurred since maize-sorghum divergence. These genetically anchored sequence-tagged sites will foster many structural, functional and evolutionary genomic studies in major food, feed, and biomass crops.

7. A High-Density Genetic Recombination Map of Sequence-Tagged Sites for Sorghum, as a Framework for Comparative Structural and Evolutionary Genomics of Tropical Grains and Grasses.

Author

Bowers, John E., Abbey, Colette, Anderson, Sharon, Chang, Charlene, Draye, Xavier, Hoppe, Alison H., Jessup, Russell, Lemke, Cornelia, Lennington, Jennifer, Zhikang Li, Jennifer, Yann-rong Lin, Jennifer, Sin-chieh Liu, Jennifer, Lijun Luo, Jennifer, Marler, Barry S., Reiguang Ming, Barry S., Mitchell, Sharon E., Dou Qiang, Sharon E., Reischmann, Kim, and Schulze, Stefan R.

Subjects

*SORGHUM, *SACCHARUM, *ZEA, *ORYZA, *PENNISETUM

Abstract

Reports a genetic recombination map for Sorghum of 2512 oci spaced at average 0.4 cM intervals based on 2050 RFLP probes, including heterologous probes that foster comparative genomics of Saccharum (sugarcane), Zea (maize), Oryza (rice), Pennisetum (millet, buffelgrass), the Triticeae (wheat, barley, oat, rye) and Aribidopsis. Evidence that evolving hypomethylated DNA may contribute to intraspecific genomic differentiation; Nonrandom distribution patterns of multiple loci detected by probes.

Published

2003