Molecular Research in Rice: Agronomically Important Traits 2.0

Molecular Research in Rice: Agronomically Important Traits 2.0

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This volume presents recent research achievements concerning the molecular genetic basis of agronomic traits in rice. Rice (Oryza sativa L.) is the most important food crop in the world, being a staple food for more than half of the world’s population. Recent improvements in living standards have in...

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HerausgeberIn:
Shenton, Matthew
Sonstige:
Hori, Kiyosumi
Shenton, Matthew
Year of Publication:2022
Language:English
Physical Description:1 electronic resource (182 p.)
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(oapen)https://directory.doabooks.org/handle/20.500.12854/95823
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spelling Hori, Kiyosumi edt
Molecular Research in Rice: Agronomically Important Traits 2.0
Molecular Research in Rice
Basel MDPI - Multidisciplinary Digital Publishing Institute 2022
1 electronic resource (182 p.)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
This volume presents recent research achievements concerning the molecular genetic basis of agronomic traits in rice. Rice (Oryza sativa L.) is the most important food crop in the world, being a staple food for more than half of the world’s population. Recent improvements in living standards have increased the worldwide demand for high-yielding and high-quality rice cultivars. To develop novel cultivars with superior agronomic performance, we need to understand the molecular basis of agronomically important traits related to grain yield, grain quality, disease resistance, and abiotic stress tolerance. Decoding the whole rice genome sequence revealed that ,while there are more than 37,000 genes in the ~400 Mbp rice genome, there are only about 3000 genes whose molecular functions are characterized in detail. We collected in this volume the continued research efforts of scholars that elucidate genetic networks and the molecular mechanisms controlling agronomically important traits in rice.
English
Research & information: general bicssc
Biology, life sciences bicssc
Technology, engineering, agriculture bicssc
grain number per panicle
grain yield
phase transition
rachis branch
rice panicle
spikelet specialisation
rice
flowering time
ambient temperature fluctuation
chromosome segment substitution line (CSSL)
quantitative trait locus (QTL)
drought tolerance
cold tolerance
Oryza sativa
OsCRP1
chloroplast ribonucleoproteins
NAD(P)H dehydrogenase (NDH) complex
nitrogen use efficiency
transcriptional regulation
nitrate reductase
nitrate transporter
glutamate synthase
potassium chlorate
QTL
food shortage
yield
grain size
OsBRKq1
genome editing
homozygous
proteomics
C4 rice
proto-Kranz
photosynthetic efficiency
crop improvement
spike-stalk injection
transcription factor
OsWRKY55
drought response
plant growth
OsAP2-39
inflorescence architecture
BLH homedomain protein
branching pattern
verticillate primary branch
transcriptome analysis
hormone pathways
japonica DT3
submergence tolerance
marker-assisted backcross
foreground selection
background selection
three-dimensional imaging
shoot apical meristem
root tip
3-0365-4943-9
Shenton, Matthew edt
Hori, Kiyosumi oth
Shenton, Matthew oth
language English
format eBook
author2 Shenton, Matthew
Hori, Kiyosumi
Shenton, Matthew
author_facet Shenton, Matthew
Hori, Kiyosumi
Shenton, Matthew
author2_variant k h kh
m s ms
author2_role HerausgeberIn
Sonstige
Sonstige
title Molecular Research in Rice: Agronomically Important Traits 2.0
spellingShingle Molecular Research in Rice: Agronomically Important Traits 2.0
title_full Molecular Research in Rice: Agronomically Important Traits 2.0
title_fullStr Molecular Research in Rice: Agronomically Important Traits 2.0
title_full_unstemmed Molecular Research in Rice: Agronomically Important Traits 2.0
title_auth Molecular Research in Rice: Agronomically Important Traits 2.0
title_alt Molecular Research in Rice
title_new Molecular Research in Rice: Agronomically Important Traits 2.0
title_sort molecular research in rice: agronomically important traits 2.0
publisher MDPI - Multidisciplinary Digital Publishing Institute
publishDate 2022
physical 1 electronic resource (182 p.)
isbn 3-0365-4944-7
3-0365-4943-9
illustrated Not Illustrated
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