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1

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A diallel analysis of heterosis in elite hybrid rice based on RFLPs and microsatellites (1994)

Zhang, Q. ; Gao, Y. J. ; Yang, S. H. ; [et al.]

Springer

Theoretical and applied genetics 89 (1994), S. 185-192

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ISSN: 1432-2242

Keywords: Oryza sativa ; Hybrid vigor ; Molecular marker ; Yield

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Hybrid rice has contributed significantly to the dramatic increase of rice production in the world. Despite this, little attention has been given to studying the genetic basis of heterosis in rice. In this paper, we report a diallel analysis of heterosis using two classes of molecular markers: restriction fragment length polymorphisms, (RFLPs) and microsatellites. Eight lines, which represent a significant portion of hybrid rice germ plasm, were crossed in all possible pairs, and the F1s were evaluated for yield and yield component traits in a replicated field trial. The parental lines were surveyed for polymorphisms with 117 RFLP probes and ten microsatellites, resulting in a total of 76 polymorphic markers well-spaced in the rice RFLP map. The results indicated that high level heterosis is common among these crosses: more than 100% midparent and 40% better-parent heterosis were observed in many F1s, including some crosses between maintainer lines. Heterosis was found to be much higher for yield than for yield component traits, which fits a multiplicative model almost perfectly. Between 16 and 30 marker loci (positive markers) detected highly significant effects on yield or its component traits. Heterozygosity was significantly correlated with several attributes of performance and heterosis. Correlations based on positive markers (specific heterozygosity) were large for midparent heterosis of yield and seeds/panicle and also for F1 kernel weight. These large correlations may have practical utility for predicting heterosis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00225139

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2

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Divergence and allelomorphic relationship of a soybean virus resistance gene based on tightly linked DNA microsatellite and RFLP markers (1996)

Yu, Y. G. ; Maroof, M. A. Saghai ; Buss, G. R.

Springer

Theoretical and applied genetics 92 (1996), S. 64-69

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ISSN: 1432-2242

Keywords: Key words Glycine max ; Potyvirus ; Disease resistance ; Germplasm ; Simple sequence repeat (SSR) ; Marker-assisted screening

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The use of genetically diverse resistance sources is important in breeding for durable disease resistance. Detection and evaluation of resistance genes by conventional inheritance experiments, however, often require laborious screening and genetic testing. In the present study, a marker-assisted screening for resistance sources was initiated in soybean [Glycine max (L.) Merr] using one DNA microsatellite and two RFLP markers tightly linked to a soybean mosaic virus (SMV) resistance gene (Rsv1). The three marker loci were used to screen 67 diverse soybean cultivars, breeding lines, and plant introductions. Five variants were found at the microsatellite locus (HSP176L), and the two RFLP loci (pA186 and pK644a) near Rsv1 show a remarkably higher level of restriction polymorphism than Rsv1-independent RFLP loci. Several specific variants at the three marker loci were found to be correlated with virus resistance, among which HSP176L-2 can be detected by PCR, thus may be useful for germplasm screening. The grouping of the 67 accessions according to their multilocus marker variants agrees with the available pedigree information. When all, or most, of the cultivars within a given group with the same Rsv1-linked marker variant are resistant, their SMV resistance is most likely conferred by Rsv1. These putatively Rsv1-carrying groups contain a total of 38 SMV-resistant lines including six differential cultivars that are known to carry Rsv1. The remaining seven resistant accessions (Columbia, Holladay, Peking, Virginia, FFR-471, PI 507403, and PI 556949) do not carry resistance marker variants, and at least some of them could be sources of resistance genes independent of Rsv1.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220050093

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3

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Analysis of the barley and rice genomes by comparative RFLP linkage mapping (1996)

Maroof, M. A. Saghai ; Yang, G. P. ; Biyashev, R. M. ; [et al.]

Springer

Theoretical and applied genetics 92 (1996), S. 541-551

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ISSN: 1432-2242

Keywords: Key words Synteny ; Orthologous evolution ; Genetic maps ; Triticeae

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Comparative genetic mapping of rice and barley, both major crop species with extensive genetic resources, offers the possibility of uniting two well-established and characterized genetic systems. In the present study, we screened 229 molecular markers and utilized 110 polymorphic orthologous loci to construct comparative maps of the rice and barley genomes. While extensive chromosomal rearrangements, including inversions and intrachromosomal translocations, differentiate the rice and barley genomes, several syntenous chromosomes are evident. Indeed, several chromosomes and chromosome arms appear to share nearly identical gene content and gene order. Seventeen regions of conserved organization were detected, spanning 287 cM (24%) and 321 cM (31%) of the rice and barley genomes, respectively. The results also indicate that most (72%) of the single-copy sequences in barley are also single copy in rice, suggesting that the large barley genome arose by unequal crossing over and amplification of repetitive DNA sequences and not by the duplication of single-copy sequences. Combining these results with those previously reported for comparative analyses of rice and wheat identified nine putatively syntenous chromosomes among barley, wheat and rice. The high degree of gene-order conservation as detected by comparative mapping has astonishing implications for interpreting genetic information among species and for elucidating chromosome evolution and speciation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220050161

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Identification of quantitative trait loci controlling resistance to gray leaf spot disease in maize (1996)

Maroof, M. A. Saghai ; Yue, Y. G. ; Xiang, Z. X. ; [et al.]

Springer

Theoretical and applied genetics 93 (1996), S. 539-546

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ISSN: 1432-2242

Keywords: Restriction fragment length polymorphism ; Zea mays L. ; Quantitative resistance ; Oligogenic ; Gene mapping

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Breeding maize for gray leaf spot (GLS) resistance has been hindered by the quantitative nature of the inheritance of GLS resistance and by the limitations of selection under less than optimumal disease pressure. In order to identify the quantitative trait loci (QTLs) controlling GLS resistance, a cross was made between B73 (susceptible) and Va14 (resistant) to generate a large F2 population. Six GLS disease assessments were made throughout the disease season for over 1000 F2 plants in 1989, and for 600 F2-derived F3 lines replicated in two blocks in 1990. RFLP analysis for78 marker loci representing all ten maize chromosomes was conducted in 239 F2 individuals including those with the extreme GLS disease phenotypes. The GLS disease scores of the three field evaluations, each averaged over six ratings, were separately used for the interval mapping in order to determine the consistency of the QTL effects. The heavy GLS disease pressure, meticulous disease ratings, and large population size of this study afforded us the sensitivity for detecting QTL effects. QTLs located on three chromosomes (1, 4, and 8) had large effects on GLS resistance, each explaining 35.0–56.0%, 8.8–14.3%, and 7.7–11.0% of the variance, respectively. These three QTL effects were remarkably consistent across three disease evaluations over 2 years and two generations. Smaller QTL effects were also found on chromosomes 2 and 5, but the chromosome-5 effect might be a false positive because it was not repeatable even in the same location. The chromosome-1 QTLs had the largest effect or highest R2 reported for any quantitative trait to-date. Except for the chromosome-4 gene, which was from the susceptible parent B73, the resistance alleles at all QTL were derived from Va14. The resistance QTLs on chromosomes 1 and 2 appear to have additive effects, but those on chromosomes 4 and 8 are dominant and recessive, respectively. Significant interaction between the QTLs on chromosomes 1 and 4 was detected in all three evaluations. Cumulatively, the four QTLs identified in this study explained 44, 60, and 68% of the variance in F2, and in F3 replications 1 and 2, respectively.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00417945

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Amplified fragment length polymorphism (AFLP) in soybean: species diversity,inheritance, and near-isogenic line analysis (1996)

Maughan, P. J. ; Maroof, M. A. Saghai ; Buss, G. R. ; [et al.]

Springer

Theoretical and applied genetics 93 (1996), S. 392-401

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ISSN: 1432-2242

Keywords: Key wordsPhenotypic diversity ; Glycine max ; Genetic mapping ; Soybean mosaic virus

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Amplified fragment length polymorphism (AFLP) analysis is a PCR-based technique capable of detecting more than 50 independent loci in a single PCR reaction. The objectives of the present study were to: (1) assess the extent of AFLP variation in cultivated (Gycine max L. Merr.) and wild soybean (G. soja Siebold & Zucc.), (2) determine genetic relationships among soybean accessions using AFLP data, and (3) evaluate the usefulness of AFLPs as genetic markers. Fifteen AFLP primer pairs detected a total of 759 AFLP fragments in a sample of 23 accessions of wild and cultivated soybean, with an average of 51 fragments produced per primer pair per accession. Two-hundred and seventy four fragments (36% of the total observed) were polymorphic, among which 127 (17%) were polymorphic in G. max and 237 (31%) were polymorphic in G. soja. F2 segregation analysis of six AFLP fragments indicated that they segregate as stable Mendelian loci. The number of polymorphic loci detected per AFLP primer pair in a sample of 23 accessions ranged from 9 to 27. The AFLP phenotypic diversity values were greater in wild than in cultivated soybean. Cluster and principal component analyses using AFLP data clearly separated G. max and G. soja accessions. Within the G. max group, adapted soybean cultivars were tightly clustered, illustrating the relatively low genetic diversity present in cultivated soybean. AFLP analysis of four soybean near-isogenic lines (NILs) identified three AFLP markers putatively linked to a virus resistance gene from two sources. The capacity of AFLP analysis to detect thousands of independent genetic loci with minimal cost and time requirements makes them an ideal marker for a wide array of genetic investigations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220050293

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6

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Identification of quantitative trait loci controlling resistance to gray leaf spot disease in maize (1996)

Maroof, M. A. Saghai ; Yue, Y. G. ; Xiang, Z. X. ; [et al.]

Springer

Theoretical and applied genetics 93 (1996), S. 539-546

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ISSN: 1432-2242

Keywords: Key words Restriction fragment length polymorphism ; Zea mays L. ; Quantitative resistance ; Oligogenic ; Gene mapping

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Breeding maize for gray leaf spot (GLS) resistance has been hindered by the quantitative nature of the inheritance of GLS resistance and by the limitations of selection under less than optimumal disease pressure. In order to identify the quantitative trait loci (QTLs) controlling GLS resistance, a cross was made between B73 (susceptible) and Va14 (resistant) to generate a large F2 population. Six GLS disease assessments were made throughout the disease season for over 1000 F2 plants in 1989, and for 600 F2-derived F3 lines replicated in two blocks in 1990. RFLP analysis for 78 marker loci representing all ten maize chromosomes was conducted in 239 F2 individuals including those with the extreme GLS disease phenotypes. The GLS disease scores of the three field evaluations, each averaged over six ratings, were separately used for the interval mapping in order to determine the consistency of the QTL effects. The heavy GLS disease pressure, meticulous disease ratings, and large population size of this study afforded us the sensitivity for detecting QTL effects. QTLs located on three chromosomes (1, 4, and 8) had large effects on GLS resistance, each explaining 35.0–56.0%, 8.8–14.3%, and 7.7–11.0% of the variance, respectively. These three QTL effects were remarkably consistent across three disease evaluations over 2 years and two generations. Smaller QTL effects were also found on chromosomes 2 and 5, but the chromosome-5 effect might be a false positive because it was not repeatable even in the same location. The chromosome-1 QTLs had the largest effect or highest R2 reported for any quantitative trait to-date. Except for the chromosome-4 gene, which was from the susceptible parent B73, the resistance alleles at all QTL were derived from Va14. The resistance QTLs on chromosomes 1 and 2 appear to have additive effects, but those on chromosomes 4 and 8 are dominant and recessive, respectively. Significant interaction between the QTLs on chromosomes 1 and 4 was detected in all three evaluations. Cumulatively, the four QTLs identified in this study explained 44, 60, and 68% of the variance in F2, and in F3 replications 1 and 2, respectively.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220050312

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Molecular-marker analysis of seed-weight: genomic locations, gene action, and evidence for orthologous evolution among three legume species (1996)

Maughan, P. J. ; Maroof, M. A. Saghai ; Buss, G. R.

Springer

Theoretical and applied genetics 93 (1996), S. 574-579

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ISSN: 1432-2242

Keywords: Key words Genetic mapping ; Restriction fragment length polymorphism ; Soybean ; Seed size

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The objectives of this study were to use molecular markers to: (1) identify quantitative trait loci (QTL) controlling seed-weight in soybean, (2) characterize the genetic basis of seed-weight expression, and (3) determine whether soybean shares orthologous seed-weight genes with cowpea and/or mung bean. An F2 population was developed between a large-seeded Glycine max breeding line and a small-seeded G. soja plant introduction. DNA samples from 150 F2 individuals were analyzed with 91 polymorphic genetic markers, including RFLPs, RAPDs and SSRs. Seed-weight was analyzed by randomly sampling 100 seeds from each of 150 greenhouse-grown F2 individuals, and their 150 F2:3 lines, from a replicated field trial. Markers associated with seed-weight were identified using the computer program MapMaker-QTL and a one-way analysis of variance. Three and five markers were significantly associated with seed-weight variation (P〈0.01) in the F2 and F2:3 generations, respectively. Tests for digenic epistasis revealed three significant interactions in both generations. In a combined analysis, these markers and interactions explained 50 and 60% of the phenotypic variation for seed-weight in the F2 and F2:3 generations, respectively. Comparison of our results in soybean (Glycine) with those previously reported in cowpea and mung bean (Vigna) indicated that soybean and cowpea share an orthologous seed-weight gene. In both species, a genomic region significantly associated with seed-weight spanned the same RFLP markers in the same linkage order. A significant digenic interaction involving this genomic region was conserved in all three species. These results suggest that the exploitation of ``comparative QTL mapping'' is an invaluable tool for quantitative geneticists working with poorly characterized plant systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220050317

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Genetic diversity and differentiation of indica and japonica rice detected by RFLP analysis (1992)

Zhang, Qifa ; Maroof, M. A. Saghai ; Lu, T. Y. ; [et al.]

Springer

Theoretical and applied genetics 83 (1992), S. 495-499

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ISSN: 1432-2242

Keywords: Oryza sativa ; Phenotypic diversity ; Differentiation ; Randomization test ; RFLP

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Genetic diversity and differentiation in indica and japonica groups of the cultivated rice (Oryza sativa L.) were studied by assaying DNA restriction fragment length polymorphisms of 12 indica and 14 japonica rice lines digested with three restriction endonucleases. A total of 49 probes were selected to represent the entire RFLP map at intervals of 20–30 cM. It was shown that 95 of the 145 possible probe/enzyme combinations, involving 43 probes and all three enzymes, detected restriction fragment length variation, and the degree of polymorphism varied greatly from one probe/enzyme combination to another. These results demonstrate that indica rice is genetically more diverse than japonica type. Significant differentiation between the two rice groups was detected by 33 probes representing 11 of the 12 rice chromosomes. It was deduced that the processes leading to differentiation involved a combination of molecular events that include base substitutions and insertion/deletions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00226539

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Divergence and allelomorphic relationship of a soybean virus resistance gene based on tightly linked DNA microsatellite and RFLP markers (1996)

Yu, Y. G. ; Maroof, M. A. Saghai ; Buss, G. R.

Springer

Theoretical and applied genetics 92 (1996), S. 64-69

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ISSN: 1432-2242

Keywords: Glycine max ; Potyvirus ; Disease resistance ; Germplasm ; Simple sequence repeat (SSR) ; Marker-assisted screening

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The use of genetically diverse resistance sources is important in breeding for durable disease resistance. Detection and evaluation of resistance genes by conventional inheritance experiments, however, often require laborious screening and genetic testing. In the present study, a marker-assisted screening for resistance sources was initiated in soybean [Glycine max (L.) Merr] using one DNA microsatellite and two RFLP markers tightly linked to a soybean mosaic virus (SMV) resistance gene (Rsv1). The three marker loci were used to screen 67 diverse soybean cultivars, breeding lines, and plant introductions. Five variants were found at the microsatellite locus (HSP176L), and the two RFLP loci (pA186 and pK644a) near Rsv1 show a remarkably higher level of restriction polymorphism than Rsv1-independent RFLP loci. Several specific variants at the three marker loci were found to be correlated with virus resistance, among which HSP176L-2 can be detected by PCR, thus may be useful for germplasm screening. The grouping of the 67 accessions according to their multilocus marker variants agrees with the available pedigree information. When all, or most, of the cultivars within a given group with the same Rsv1-linked marker variant are resistant, their SMV resistance is most likely conferred by Rsv1. These putatively Rsv1-carrying groups contain a total of 38 SMV-resistant lines including six differential cultivars that are known to carry Rsv1. The remaining seven resistant accessions (Columbia, Holladay, Peking, Virginia, FFR-471, PI 507403, and PI 556949) do not carry resistance marker variants, and at least some of them could be sources of resistance genes independent of Rsv1.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00222952

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Development of simple sequence repeat DNA markers and their integration into a barley linkage map (1996)

Liu, Z. -W. ; Biyashev, R. M. ; Maroof, M. A. Saghai

Springer

Theoretical and applied genetics 93 (1996), S. 869-876

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ISSN: 1432-2242

Keywords: Microsatellites ; Hordeum vulgare ; Molecular marker ; Linkage map

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Simple sequence repeats (SSRs), or microsatellites, are a new class of PCR-based DNA markers for genetic mapping. The objectives of the present study were to develop SSR markers for barley and to integrate them into an existing barley linkage map. DNA sequences containing SSRs were isolated from a barley genomic library and from public databases. It is estimated that the barley genome contains one (GA)n repeat every 330 kb and one (CA)n repeat every 620 kb. A total of 45 SSRs were identified and mapped to seven barley chromosomes using doubled-haploid lines and/or wheat-barley addition-line assays. Segregation analysis for 39 of these SSRs identified 40 loci. These 40 markers were placed on a barley linkage map with respect to 160 restriction fragment length polymorphism (RFLP) and other markers. The results of this study demonstrate the value of SSRs as markers in genetic studies and breeding research in barley.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00224088

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