Molecular Marker Technology for Crop Improvement
Since the 1980s, agriculture and plant breeding have changed with the development of molecular marker technology. In recent decades, different types of molecular markers have been used for different purposes: mapping, marker-assisted selection, characterization of genetic resources, etc. These have...
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Year of Publication: | 2021 |
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Soriano, José Miguel edt Molecular Marker Technology for Crop Improvement Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 1 electronic resource (302 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Since the 1980s, agriculture and plant breeding have changed with the development of molecular marker technology. In recent decades, different types of molecular markers have been used for different purposes: mapping, marker-assisted selection, characterization of genetic resources, etc. These have produced effective genotyping, but the results have been costly and time-consuming due to the small number of markers that could be tested simultaneously. Recent advances in molecular marker technologies such as the development of high-throughput genotyping platforms, genotyping by sequencing, and the release of the genome sequences of major crop plants have opened new possibilities for advancing crop improvement. This Special Issue collects 16 research studies, including the application of molecular markers in 11 crop species, from the generation of linkage maps and diversity studies to the application of marker-assisted selection and genomic prediction. English Research & information: general bicssc Biology, life sciences bicssc durum wheat landraces marker-trait association root system architecture sugarcane parental line population structure plant breeding genetic diversity simple sequence repeats (SSR) Persea americana SMRT sequencing simple sequence repeat genetic relationship flavonoid biosynthesis fruit coloration marker-assisted selection microsatellites Rubus gene prioritization linkage disequilibrium tropical maize brown rice recovery milled rice recovery head rice recovery milling yield traits QTL mapping rice (Oryza sativa L.) tetraploid potato SNP markers SLAF-seq technology high-density genetic linkage map genome wide association study GWAS water use agronomic traits MTAs candidate genes TKW sedimentation volume SDS YR drought stress association mapping QTL hotspot seminal root gene pyramiding aroma QTL chromosome selection introgression line maize (Zea mays L.) Striga resistance/tolerance F2:3 biparental mapping Marker-assisted selection persimmon sex determination fruit astringency molecular markers genomics genomic selection genomic prediction whole genome regression grain quality near infra-red spectroscopy cereal crop sorghum multi-trait Triticum aestivum mapping population leaf rust stem rust pathogen races disease resistance apricot MAS breeding MATH PPV resistance agarose ParPMC ParPMC2-del high resolution melting ISBP markers drought MQTL wheat variability crop breeding genetic maps GWAS marker assisted selection DNA sequencing 3-03943-863-8 3-03943-864-6 Soriano, José Miguel oth |
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English |
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Soriano, José Miguel |
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Soriano, José Miguel |
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Molecular Marker Technology for Crop Improvement |
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Molecular Marker Technology for Crop Improvement |
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Molecular Marker Technology for Crop Improvement |
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Molecular Marker Technology for Crop Improvement |
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Molecular Marker Technology for Crop Improvement |
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Molecular Marker Technology for Crop Improvement |
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Molecular Marker Technology for Crop Improvement |
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molecular marker technology for crop improvement |
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MDPI - Multidisciplinary Digital Publishing Institute |
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2021 |
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1 electronic resource (302 p.) |
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3-03943-863-8 3-03943-864-6 |
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AT sorianojosemiguel molecularmarkertechnologyforcropimprovement |
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(CKB)5400000000045157 (oapen)https://directory.doabooks.org/handle/20.500.12854/68299 (EXLCZ)995400000000045157 |
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Molecular Marker Technology for Crop Improvement |
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