Search Results - "Stuber, C. W"

QTL mapping with near-isogenic lines in maize by Szalma, S. J, Hostert, B. M, LeDeaux, J. R, Stuber, C. W, Holland, J. B

“…A set of 89 near-isogenic lines (NILs) of maize was created using marker-assisted selection. Nineteen genomic regions, identified by restriction fragment…”
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Utility of SSRs for determining genetic similarities and relationships in maize using an agarose gel system by Senior, M.L. (USDA, ARS, North Carolina State Univ., Raleigh, NC.), Murphy, J.P, Goodman, M.M, Stuber, C.W

“…Among maize (Zea maize L.) breeders, there is a heightened awareness of the necessity for both maintaining genetic diversity for crop improvement and improving…”
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Two high-density AFLP® linkage maps of Zea mays L. : analysis of distribution of AFLP markers by VUYLSTEKE, M, MANK, R, ZABEAU, M, KUIPER, M, ANTONISE, R, BASTIAANS, E, SENIOR, M. L, STUBER, C. W, MELCHINGER, A. E, LÜBBERSTEDT, T, XIA, X. C, STAM, P

“…This study demonstrates the relative ease of generating high-density linkage maps using the AFLP® technology. Two high-density AFLP linkage maps of Zea mays L…”
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Identification and mapping of quantitative trait loci conditioning resistance to southern leaf blight of maize caused by Cochliobolus heterostrophus race O by Carson, M.L, Stuber, C.W, Senior, M.L

“…A random set of recombinant inbred (RI) lines (F2:7) derived from the cross of the inbred lines Mo17 (resistant) and B73 (susceptible) were evaluated for…”
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Identification of Genetic Factors Contributing to Heterosis in a Hybrid From Two Elite Maize Inbred Lines Using Molecular Markers by Stuber, C. W, Lincoln, S. E, Wolff, D. W, Helentjaris, T, Lander, E. S

“…The use of molecular markers to identify quantitative trait loci (QTLs) affecting agriculturally important traits has become a key approach in plant…”
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Isozymatic and morphological diversity in the races of maize of Mexico by Sanchez G, J.J, Goodman, M.M, Stuber, C.W

“…To determine the relationships and genetic diversity among the Mexican races of maize, 209 accessions representing 59 races were analyzed for 21 enzyme systems…”
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Gene Mapping with Recombinant Inbreds in Maize by Burr, B, Burr, F. A, Thompson, K. H, Albertson, M. C, Stuber, C. W

“…Recombinant inbred lines of maize have been developed for the rapid mapping of molecular probes to chromosomal location. Two recombinant inbred families have…”
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Molecular-marker-facilitated investigations of quantitative-trait loci in maize. I. Numbers, genomic distribution and types of gene action by Edwards, M.D, Stuber, C.W, Wendel, J.F

“…Individual genetic factors which underlie variation in quantitative traits of maize were investigated in each of two F2 populations by examining the mean trait…”
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Comparative recombination distances among Zea mays L. inbreds, wide crosses and interspecific hybrids by Williams, C.G. (Texas AandM University, College Station, TX.), Goodman, M.M, Stuber, C.W

“…Recombination distances and linkage heterogeneity were compared among a wide range of maize inbreds, wide crosses and maize X teosinte hybrids. Twelve maize…”
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Molecular-marker-facilitated investigations of quantitative trait loci in maize. 4. Analysis based on genome saturation with isozyme and restriction fragment length polymorphism markers by Edwards, M.D. (Green Giant Company, LeSueur, MN (USA)), Helentjaris, T, Wright, S, Stuber, C.W

“…Restriction fragment length polymorphisms have become powerful tools for genetic investigations in plant species. They allow a much greater degree of genome…”
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Synergy of empirical breeding, marker-assisted selection, and genomics to increase crop yield potential by Stuber, C.W, Polacco, M, Senior, M.L

“…This paper was presented as part of the symposium entitled "Post-Green Revolution Trends in Crop Yield Potential: Increasing, Stagnant or Greater Resistance to…”
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Duplicated chromosome segments in maize (Zea mays L.): further evidence from hexokinase isozymes by WENDEL, J. F, STUBER, C. W, EDWARDS, M. D, GOODMAN, M. M

“…The genetic control of hexokinase isozymes (ATP: d-hexose-6-phosphotransferase, E.C. 2.7.7.1, HEX) in maize (Zea mays L.) was studied by starch gel…”
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Linkage relationships of 19 enzyme loci in maize by Goodman, M. M, Stuber, C. W, Newton, K, Weissinger, H. H

“…Linkage relationships of 19 enzyme loci have been examined. The chromosomal locations of eight of these loci are formally reported for the first time in this…”
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Mapping and manipulating quantitative traits in maize by Stuber, Charles W.

“…Maize has been used effectively as a model organism in the development and evaluation of molecular markers for the identification, mapping and manipulation of…”
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Duplicated plastid and triplicated cytosolic isozymes of triosephosphate isomerase in maize (Zea mays L.) by Wendel, J F, Stuber, C W, Goodman, M M, Beckett, J B

“…We studied electrophoretic variation and inheritance of triosephosphate isomerase (TPI) isozymes in maize (Zea mays L.). In contrast to most diploid plants, in…”
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Allozyme frequency changes associated with selection for increased grain yield in maize (Zea mays L.) by Stuber, C. W, Moll, R. H, Goodman, M. M, Schaffer, H. E, Weir, B. S

“…Frequency changes of alleles at eight enzyme loci were monitored in four long-term maize selection experiments. The results indicate that changes in…”
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Characterization of a Yield Quantitative Trait Locus on Chromosome Five of Maize by Fine Mapping by Graham, Geoffrey I., Wolff, David W., Stuber, Charles W.

“…In an earlier study for identifying quantitative trait loci (QTLs) a maize (Zea mays L.) population generated from the cross B73 × Mo17, a major effect on…”
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Isoenzymatic variation in Zea (Gramineae) [Zea mays, maize, and its wild relatives, the teosintes, genetics, taxonomic aspects] by Doebley, John F., Goodman, M., Stuber, Charles W.

“…An average of 14(7-34) plants each for 61 different collections of Zea (maize and its wild relatives, the teosintes) were studied for 12 enzyme systems coded…”
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The origin of Cornbelt maize: the isozyme evidence by Doebley, J, Wendel, J.D, Smith, J.S.C, Stuber, C.W, Goodman, M.M

“…Historical records show that the Midwestern dent corns of the United States originated from hybridization of two landraces, Northern Flint and Southern Dent…”
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Isozymatic Variation in Guatemalan Races of Maize by Bretting, P. K., Goodman, M. M., Stuber, C. W.

“…Isozymatic data taken from 67 Guatemalan collections of maize were subjected to numerical taxonomic analyses to elucidate systematic relationships among the 19…”
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