scholarly journals Solar rhythm in the regulation of photoperiodic flowering of long-day and short-day plants

2013 ◽  
Vol 64 (10) ◽  
pp. 2643-2652 ◽  
Author(s):  
Hoong-Yeet Yeang
Keyword(s):  
Short Day ◽  
Photoperiodic Flowering ◽  
Long Day

scholarly journals Conserved Expression Profiles of Circadian Clock-related Genes in Two Lemna Species Showing Long-day and Short-day Photoperiodic Flowering Responses

2006 ◽  
Vol 47 (5) ◽  
pp. 601-612 ◽  
Author(s):  
Kumiko Miwa ◽  
Masayuki Serikawa ◽  
Sayaka Suzuki ◽  
Takao Kondo ◽  
Tokitaka Oyama
Keyword(s):  
Circadian Clock ◽  
Expression Profiles ◽  
Short Day ◽  
Photoperiodic Flowering ◽  
Long Day

scholarly journals The transcriptomic response to a short day to long day shift in leaves of the reference legume Medicago truncatula

PeerJ ◽  
2019 ◽  
Vol 7 ◽  
pp. e6626 ◽  
Author(s):  
Geoffrey Thomson ◽  
James Taylor ◽  
Joanna Putterill
Keyword(s):  
Flowering Time ◽  
Medicago Truncatula ◽  
Differential Expression Analysis ◽  
Potential Candidate ◽  
Diurnal Pattern ◽  
Transcriptomic Response ◽  
Short Day ◽  
Photoperiodic Flowering ◽  
Long Day ◽  
Young Leaves

Photoperiodic flowering aligns plant reproduction to favourable seasons of the year to maximise successful production of seeds and grains. However understanding of this process in the temperate legumes of the Fabaceae family, which are important both agriculturally and ecologically, is incomplete. Previous work in the reference legume Medicago truncatula has shown that the FT-like gene MtFTa1 is a potent floral activator. While MtFTa1 is upregulated by long-day photoperiods (LD) and vernalisation, the molecular basis of this is unknown as functional homologues of key regulatory genes present in other species, notably CONSTANS in A. thaliana, have not been identified. In LD MtFTa1 maintains a near constant diurnal pattern of expression unlike its homologue FT in A. thaliana, which has a notable peak in expression at dusk. This suggests a different manner of regulation. Furthermore, M. truncatula possesses other FT-like genes such as two LD induced MtFTb genes which may also act in the regulation of flowering time. MtFTb genes have a diurnal pattern of expression with peaks at both four and sixteen hours after dawn. This study utilises RNA-Seq to analyse the transcriptome of M. truncatula leaves to identify genes which may regulate or be co-expressed with these FT-like genes following a shift from short-day photoperiods to inductive long-days. Specifically this study focuses on the first four hours of the day in the young leaves, which coincides with the first diurnal peak of the FTb genes. Following differential expression analysis at each timepoint, genes which alter their pattern of expression are distinguished from those which just alter their magnitude of expression (and those that do neither). It goes on to categorise these genes into groups with similar patterns of expression using c-means clustering and identifies a number of potential candidate photoperiod flowering time genes for future studies to consider.

scholarly journals The transcriptomic response to a short day to long day shift in leaves of the reference legume Medicago truncatula

2018 ◽  
Author(s):  
Geoffrey Thomson ◽  
James Taylor ◽  
Joanna Putterill
Keyword(s):  
Flowering Time ◽  
Medicago Truncatula ◽  
Differential Expression Analysis ◽  
Potential Candidate ◽  
Diurnal Pattern ◽  
Transcriptomic Response ◽  
Short Day ◽  
Photoperiodic Flowering ◽  
Long Day ◽  
Young Leaves

Photoperiodic flowering aligns plant reproduction to favourable seasons of the year to maximise successful production of seeds and grains. However understanding of this process in the temperate legumes of the Fabaceae family, which are important both agriculturally and ecologically, is incomplete. Previous work in the reference legume Medicago truncatula has shown that the FT-like gene MtFTa1 is a potent floral activator. While MtFTa1 is upregulated by long-day photoperiods (LD) and vernalisation, the molecular basis of this is unknown as functional homologues of key regulatory genes present in other species, notably CONSTANS in A. thaliana, have not been identified. In LD MtFTa1 maintains a near constant diurnal pattern of expression unlike its homologue FT in A. thaliana, which has a notable peak in expression at dusk. This suggests a different manner of regulation. Furthermore, M. truncatula possesses other FT-like genes such as two LD induced MtFTb genes which may also act in the regulation of flowering time. MtFTb genes have a diurnal pattern of expression with peaks at both four and sixteen hours after dawn. This study utilises RNA-Seq to analyse the transcriptome of M. truncatula leaves to identify genes which may regulate or be co-expressed with these FT-like genes following a shift from short-day photoperiods to inductive long-days. Specifically this study focuses on the first four hours of the day in the young leaves, which coincides with the first diurnal peak of the FTb genes. Following differential expression analysis at each timepoint, genes which alter their pattern of expression are distinguished from those which just alter their magnitude of expression (and those that do neither). It goes on to categorise these genes into groups with similar patterns of expression using c-means clustering and identifies a number of potential candidate photoperiod flowering time genes for future studies to consider.

scholarly journals The Photoperiod Pathway in Fragaria (Rosaceae)

HortScience ◽  
2006 ◽  
Vol 41 (4) ◽  
pp. 1010E-1011
Author(s):  
Philip J. Stewart ◽  
Ashley R. Winslow ◽  
Kevin M. Folta
Keyword(s):  
Cdna Libraries ◽  
Flowering Locus T ◽  
Degenerate Pcr ◽  
Short Day ◽  
Photoperiodic Flowering ◽  
Long Day ◽  
Important Pathway ◽  
Photoperiod Pathway ◽  
Flowering Control ◽  
Signal Transduction Systems

The transition from vegetative growth to reproductive growth is carefully controlled by a number of independent signal transduction systems, one of which interprets photoperiod. Photoperiodic control of flowering time has been well-described in Arabidopsis and rice, revealing the presence of a generally common network of regulatory proteins. Timely and appropriate progression to flowering is critical to profitable production of cultivated strawberry (Fragaria ×ananassa), a species that includes long-day, short-day, and day-neutral cultivars. In an effort to characterize the photoperiodic flowering control mechanism in strawberry, the Fragaria orthologs of the photoperiod pathway genes were cloned and sequenced. Strawberry versions of Constans, Constans-like, Leafy, Flowering Locus T, and Suppressor of Constans Overexpression 1 were identified by screening cDNA libraries and through degenerate PCR approaches. Expression of these transcripts in short-day and day-neutral cultivars was tested under long and short photoperiods. Functional complementation of Arabidopsis mutants was performed where appropriate, alleles were identified, genetic linkage was determined where possible, and relationships between the strawberry genes and homologs from other species were studied. These trials define the mechanistic elements of an agriculturally important pathway in this valuable crop, and lays the foundation for transgenic studies in strawberry to manipulate the floral transition.

scholarly journals The transcriptomic response to a short day to long day shift in leaves of the reference legume Medicago truncatula

2018 ◽  
Author(s):  
Geoffrey Thomson ◽  
James Taylor ◽  
Joanna Putterill
Keyword(s):  
Flowering Time ◽  
Medicago Truncatula ◽  
Differential Expression Analysis ◽  
Potential Candidate ◽  
Diurnal Pattern ◽  
Transcriptomic Response ◽  
Short Day ◽  
Photoperiodic Flowering ◽  
Long Day ◽  
Young Leaves

Photoperiodic flowering aligns plant reproduction to favourable seasons of the year to maximise successful production of seeds and grains. However understanding of this process in the temperate legumes of the Fabaceae family, which are important both agriculturally and ecologically, is incomplete. Previous work in the reference legume Medicago truncatula has shown that the FT-like gene MtFTa1 is a potent floral activator. While MtFTa1 is upregulated by long-day photoperiods (LD) and vernalisation, the molecular basis of this is unknown as functional homologues of key regulatory genes present in other species, notably CONSTANS in A. thaliana, have not been identified. In LD MtFTa1 maintains a near constant diurnal pattern of expression unlike its homologue FT in A. thaliana, which has a notable peak in expression at dusk. This suggests a different manner of regulation. Furthermore, M. truncatula possesses other FT-like genes such as two LD induced MtFTb genes which may also act in the regulation of flowering time. MtFTb genes have a diurnal pattern of expression with peaks at both four and sixteen hours after dawn. This study utilises RNA-Seq to analyse the transcriptome of M. truncatula leaves to identify genes which may regulate or be co-expressed with these FT-like genes following a shift from short-day photoperiods to inductive long-days. Specifically this study focuses on the first four hours of the day in the young leaves, which coincides with the first diurnal peak of the FTb genes. Following differential expression analysis at each timepoint, genes which alter their pattern of expression are distinguished from those which just alter their magnitude of expression (and those that do neither). It goes on to categorise these genes into groups with similar patterns of expression using c-means clustering and identifies a number of potential candidate photoperiod flowering time genes for future studies to consider.

Control of torpor and body weight patterns by a seasonal timer in Siberian hamsters

1989 ◽  
Vol 257 (1) ◽  
pp. R142-R149 ◽  
Author(s):  
T. J. Bartness ◽  
J. A. Elliott ◽  
B. D. Goldman
Keyword(s):  
Body Weight ◽  
Food Intake ◽  
Implant Removal ◽  
Daily Torpor ◽  
Short Day ◽  
Siberian Hamsters ◽  
Long Day ◽  
Preparatory Phase ◽  
Pelage Color ◽  
Seasonal Responses

Two experiments were designed to assess whether the short-day-induced patterns of shallow daily torpor, body weight, and other seasonal responses (food intake and pelage pigmentation) exhibited by Siberian hamsters (Phodopus sungorus sungorus) are under the control of a "seasonal timekeeping mechanism" that is independent of reproductive status [testosterone, (T)]. We examined whether the patterning and expression of these seasonal responses were altered by decreases in serum T that accompany gonadal regression during the first 8 wk of short-day exposure (i.e., the "preparatory phase" of the torpor season) or by experimental increases in serum T after this phase. Short-day-housed, castrated hamsters bearing T implants had long-day levels of the hormone and did not exhibit torpor. Appropriate seasonal patterns and levels of torpor, body weight, pelage color stage, and food intake were exhibited after T implant removal although serum T was clamped to long-day levels during the preparatory phase. In animals that were gonad intact during the preparatory phase and were subsequently castrated and given T implants, torpor did not occur as long as the implants were in place. However, the patterns and levels of daily torpor, food intake, and body weight rapidly returned to appropriate seasonal values compared with the castrated, blank-implanted controls on T implant removal; these effects occurred whether the T implants were removed when torpor frequency was increasing, at its peak, or decreasing across the torpor season. T did not affect pelage color stage under any condition.(ABSTRACT TRUNCATED AT 250 WORDS)

Cessation of Long Day Melatonin Rhythms Time Puberty in a Short Day Breeder*

Endocrinology ◽  
1988 ◽  
Vol 123 (3) ◽  
pp. 1636-1641 ◽  
Author(s):  
DOUGLAS L. FOSTER ◽  
FRANCIS J. P. EBLING ◽  
LEE E. CLAYPOOL ◽  
CELIA J. I. WOODFILL
Keyword(s):  
Short Day ◽  
Long Day

Transcriptomic analysis of Allium sativum uncovers putative genes involved in photoperiodic pathway and hormone signaling under long day and short day conditions

Plant Science ◽  
2021 ◽  
pp. 111095
Author(s):  
Muhammad Jawaad Atif ◽  
Bakht Amin ◽  
Muhammad Imran Ghani ◽  
Muhammad Ali ◽  
Somia Khursheed ◽  
...  
Keyword(s):  
Allium Sativum ◽  
Transcriptomic Analysis ◽  
Hormone Signaling ◽  
Short Day ◽  
Long Day
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