Pages that link to "Q35239874"

The following pages link to Coincident light and clock regulation of pseudoresponse regulator protein 37 ( PRR37 ) controls photoperiodic flowering in sorghum (Q35239874):

Displaying 50 items.

• Adaptation to the local environment by modifications of the photoperiod response in crops (Q26824620) (← links)
• Wheels within wheels: the plant circadian system (Q27027894) (← links)
• Daily changes in temperature, not the circadian clock, regulate growth rate in Brachypodium distachyon (Q27323064) (← links)
• Transcriptional and Post-transcriptional Mechanisms Limit Heading Date 1 (Hd1) Function to Adapt Rice to High Latitudes (Q28469493) (← links)
• Temporal Shift of Circadian-Mediated Gene Expression and Carbon Fixation Contributes to Biomass Heterosis in Maize Hybrids (Q28959149) (← links)
• Population genomic and genome-wide association studies of agroclimatic traits in sorghum (Q30583217) (← links)
• HvLUX1 is a candidate gene underlying the early maturity 10 locus in barley: phylogeny, diversity, and interactions with the circadian clock and photoperiodic pathways (Q33358631) (← links)
• Molecular control of seasonal flowering in rice, arabidopsis and temperate cereals (Q33358080) (← links)
• Transcriptome Profiling of Tiller Buds Provides New Insights into PhyB Regulation of Tillering and Indeterminate Growth in Sorghum. (Q33362616) (← links)
• Night-Break Experiments Shed Light on the Photoperiod1-Mediated Flowering. (Q33365221) (← links)
• Phytochrome C plays a major role in the acceleration of wheat flowering under long-day photoperiod (Q33925741) (← links)
• Sorghum phytochrome B inhibits flowering in long days by activating expression of SbPRR37 and SbGHD7, repressors of SbEHD1, SbCN8 and SbCN12 (Q34047282) (← links)
• Association analysis of photoperiodic flowering time genes in west and central African sorghum [Sorghum bicolor (L.) Moench]. (Q34186464) (← links)
• Multiparental mapping of plant height and flowering time QTL in partially isogenic sorghum families (Q34213374) (← links)
• PHYTOCHROME C is an essential light receptor for photoperiodic flowering in the temperate grass, Brachypodium distachyon (Q34242994) (← links)
• Expression conservation within the circadian clock of a monocot: natural variation at barley Ppd-H1 affects circadian expression of flowering time genes, but not clock orthologs (Q34312725) (← links)
• Genome dynamics explain the evolution of flowering time CCT domain gene families in the Poaceae (Q34428680) (← links)
• Hd16, a gene for casein kinase I, is involved in the control of rice flowering time by modulating the day-length response (Q34467836) (← links)
• PSEUDO RESPONSE REGULATORs stabilize CONSTANS protein to promote flowering in response to day length (Q34552869) (← links)
• Days to heading 7, a major quantitative locus determining photoperiod sensitivity and regional adaptation in rice (Q34580964) (← links)
• Digital genotyping of sorghum - a diverse plant species with a large repeat-rich genome (Q34799922) (← links)
• Three CCT domain-containing genes were identified to regulate heading date by candidate gene-based association mapping and transformation in rice (Q34867500) (← links)
• Casein kinases I and 2α phosphorylate oryza sativa pseudo-response regulator 37 (OsPRR37) in photoperiodic flowering in rice (Q35038996) (← links)
• Molecular evolution and phylogenetic analysis of eight COL superfamily genes in group I related to photoperiodic regulation of flowering time in wild and domesticated cotton (Gossypium) species (Q35118716) (← links)
• CONSTANS is a photoperiod regulated activator of flowering in sorghum (Q35177549) (← links)
• Genetic analysis of inflorescence and plant height components in sorghum (Panicoidae) and comparative genetics with rice (Oryzoidae) (Q35504941) (← links)
• Genetic architecture of variation in heading date among Asian rice accessions. (Q35583553) (← links)
• Molecular evolution of the Sorghum Maturity Gene Ma3. (Q35593116) (← links)
• Diversity and population structure of northern switchgrass as revealed through exome capture sequencing (Q35795006) (← links)
• Contrasting allelic distribution of CO/Hd1 homologues in Miscanthus sinensis from the East Asian mainland and the Japanese archipelago (Q35825268) (← links)
• Presence of tannins in sorghum grains is conditioned by different natural alleles of Tannin1. (Q36068916) (← links)
• ZmCCT and the genetic basis of day-length adaptation underlying the postdomestication spread of maize (Q36094407) (← links)
• Mapping of QTLs underlying flowering time in sorghum [Sorghum bicolor (L.) Moench]. (Q36119813) (← links)
• Genome-environment associations in sorghum landraces predict adaptive traits (Q36284728) (← links)
• A conserved molecular basis for photoperiod adaptation in two temperate legumes. (Q36485058) (← links)
• Flowering induction in the bioenergy grass Miscanthus sacchariflorus is a quantitative short-day response, whilst delayed flowering under long days increases biomass accumulation (Q36523802) (← links)
• Genetic control and comparative genomic analysis of flowering time in Setaria (Poaceae). (Q36588980) (← links)
• Retrospective genomic analysis of sorghum adaptation to temperate-zone grain production (Q36998520) (← links)
• Crop plants as models for understanding plant adaptation and diversification (Q37060846) (← links)
• Non-targeted Metabolomics in Diverse Sorghum Breeding Lines Indicates Primary and Secondary Metabolite Profiles Are Associated with Plant Biomass Accumulation and Photosynthesis (Q37082105) (← links)
• The Evolution of Photoperiod-Insensitive Flowering in Sorghum, A Genomic Model for Panicoid Grasses (Q37184710) (← links)
• A Genomic Resource for the Development, Improvement, and Exploitation of Sorghum for Bioenergy (Q37234261) (← links)
• Dissecting genome-wide association signals for loss-of-function phenotypes in sorghum flavonoid pigmentation traits (Q37272960) (← links)
• Genetic dissection of sorghum grain quality traits using diverse and segregating populations. (Q37714578) (← links)
• Physiological significance of the plant circadian clock in natural field conditions (Q38017319) (← links)
• Genomic analysis reveals novel connections between alternative splicing and circadian regulatory networks. (Q38061014) (← links)
• Sugars, the clock and transition to flowering (Q38082751) (← links)
• Energy sorghum--a genetic model for the design of C4 grass bioenergy crops (Q38222731) (← links)
• The FLC-like gene BvFL1 is not a major regulator of vernalization response in biennial beets. (Q38884135) (← links)
• The Importance of Being on Time: Regulatory Networks Controlling Photoperiodic Flowering in Cereals. (Q38919583) (← links)