TY  - GEN
AU  - Ichitani,Katsuyuki
AU  - Ishikawa,Ryuji
AU  - Ichitani,Katsuyuki
AU  - Ishikawa,Ryuji
TI  - Genetics in Rice
SN  - books978-3-03936-827-3
PY  - 2020///
CY  - Basel, Switzerland
PB  - MDPI - Multidisciplinary Digital Publishing Institute
KW  - Research & information: general
KW  - bicssc
KW  - Biology, life sciences
KW  - African rice
KW  - climate change
KW  - genomic resources
KW  - genetic potential
KW  - genome sequencing
KW  - domestication
KW  - transcriptome and chloroplast
KW  - anther length
KW  - cell elongation
KW  - genetic architecture
KW  - outcrossing
KW  - perennial species
KW  - rice
KW  - reproductive barrier
KW  - segregation distortion
KW  - abortion
KW  - wild rice
KW  - O. meridionalis
KW  - O. sativa
KW  - gene duplication
KW  - Oryza sativa
KW  - hybrid weakness
KW  - cell death
KW  - reactive oxygen species
KW  - leaf yellowing
KW  - SPAD
KW  - hypersensitive response
KW  - semidawarf gene
KW  - d60
KW  - sd1
KW  - yield component
KW  - phenotyping
KW  - growth
KW  - Seed shattering
KW  - O. barthii
KW  - HS1
KW  - haplotype
KW  - rice (Oryza sativa)
KW  - evolutionary relationships
KW  - chloroplast genome
KW  - nuclear genome
KW  - phylogeny
KW  - rice (Oryza sativa L.)
KW  - brown planthopper
KW  - near-isogenic lines
KW  - pyramided lines
KW  - resistance
KW  - virulence
KW  - flowering time
KW  - photoperiod sensitivity
KW  - allelic variation
KW  - fine-tuning
KW  - Oryza
KW  - speciation
KW  - divergence
KW  - life history
KW  - phylogenetic relation
KW  - Australian continent
KW  - abiotic stress
KW  - salinity
KW  - whole genome re-sequencing
N1  - Open Access
N2  - Rice feeds more than half of the world population. Its small genome size and ease in transformation have made rice the model crop in plant physiology and genetics. Molecular as well as Mendelian, forward as well as reverse genetics collaborate with each other to expand rice genetics. The wild relatives of rice belonging to the genus Oryza are distributed in Asia, Africa, Latin America and Oceania. They are good sources for the study of domestication and adaptation. Rice was the first crop to have its entire genome sequenced. With the help of the reference genome of Nipponbare and the advent of the next generation sequencer, the study of the rice genome has been accelerated. The mining of DNA polymorphism has permitted map-based cloning, QTL (quantitative trait loci) analysis, and the production of many kinds of experimental lines, such as recombinant inbred lines, backcross inbred lines, and chromosomal segment substitution lines. Inter- and intraspecific hybridization among Oryza species has opened the door to various levels of reproductive barriers ranging from prezygotic to postzygotic. This Special Issue contains eleven papers on genetic studies of rice and its relatives utilizing the rich genetic resources and/or rich genome information described above
UR  - https://mdpi.com/books/pdfview/book/2807
UR  - https://directory.doabooks.org/handle/20.500.12854/69038
ER  -