The transition to flowering in winter rapeseed during vernalization

In order to group winter rapeseed cultivars according to evaluated traits, an experiment was conducted in the Research Greenhouse of Agriculture Faculty, University of Tabriz - IRAN. In the experiment were included 12 cultivars of winter rapeseed and 3 levels of water deficit stress. Gypsum blocks were used to monitor soil moisture. Water deficit stress was imposed from stem elongation to physiological maturity. According to the principal component analysis, five principal components were chosen with greater eigenvalue (more than 0.7) that are including 81.34% of the primeval variance of variables. The first component that explained the 48.02% of total variance had the high eigenvalue. The second component could justify about 13.64% of total variance and had positive association with leaf water potential and proline content and had negative relationship with leaf stomatal conductivity. The third, fourth and fifth components expressed around, 10.18, 4.83 and 4.68% of the total variance respectively. The third component had the high eigenvalue for plant dry weight. The fourth component put 1000-seed weight, seed yield, Silique per Plant and root dry weight against plant dry weight, chlorophyll fluorescence and leaf water potential. The fifth component had the high eigenvalue for root dry weight, root volume and 1000-seed weight.

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Use of the electro-separation method for improvement of the utility value of winter rapeseeds

International Agrophysics ◽

10.2478/intag-2013-0012 ◽

2013 ◽

Vol 27 (4) ◽

pp. 419-424 ◽

Cited By ~ 9

Author(s):

S.J. Kovalyshyn ◽

O.P. Shvets ◽

S. Grundas ◽

J. Tys

Keyword(s):

Corona Discharge ◽

Mechanical Damage ◽

Edible Oil ◽

Separation Method ◽

Utility Value ◽

X Ray ◽

Winter Rapeseed ◽

The Mean ◽

Discharge Field ◽

Prototype Apparatus

Abstract The paper presents the results of a study of the use of electro-separation methods for improvement of the utility value of 5 winter rapeseed cultivars. The process of electro-separation of rapeseed was conducted on a prototype apparatus built at the Laboratory of Application of Electro-technologies in Agriculture, Lviv National Agriculture University. The process facilitated separation of damaged, low quality seeds from the sowing material. The initial mean level of mechanically damaged seeds in the winter rapeseed cultivars studied varied within the range of 15.8-20.1%. Verification of the amount of seeds with mechanical damage was performed on X-ray images of seeds acquired by means of a digital X-ray apparatus. In the course of analysis of the X-ray images, it was noted that the mean level of mechanical damage to the seeds after the electro-separation was in the range of 2.1-3.8%. The application of the method of separation of rapeseeds in the corona discharge field yielded a significant reduction of the level of seeds with mechanical damage. The application of the method in practice may effectively contribute to improvement of the utility value of sowing material or seed material for production of edible oil.

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Enhancing the Heterosis of Spring Rapeseed Varieties (Brassica napusL.) by Using Semi-Winter Rapeseed Varieties as Parents

ACTA AGRONOMICA SINICA ◽

10.3724/sp.j.1006.2013.00118 ◽

2013 ◽

Vol 39 (1) ◽

pp. 118 ◽

Cited By ~ 1

Author(s):

Yan-Mei YAO ◽

Hai-Dong LIU ◽

Liang XU ◽

De-Zhi DU

Keyword(s):

Winter Rapeseed

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THE QUANTITATIVE ULTRASTRUCTURE OF THE MERISTEMATIC CELLS OF XANTHIUM STRUMARIUM DURING THE TRANSITION TO FLOWERING

American Journal of Botany ◽

10.1002/j.1537-2197.1980.tb07750.x ◽

1980 ◽

Vol 67 (8) ◽

pp. 1171-1178 ◽

Cited By ~ 8

Author(s):

A. Havelange

Keyword(s):

Xanthium Strumarium ◽

Meristematic Cells ◽

Quantitative Ultrastructure ◽

Transition To Flowering

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Novel Loci Control Variation in Reproductive Timing inArabidopsis thalianain Natural Environments

Genetics ◽

10.1093/genetics/162.4.1875 ◽

2002 ◽

Vol 162 (4) ◽

pp. 1875-1884 ◽

Cited By ~ 5

Author(s):

Cynthia Weinig ◽

Mark C Ungerer ◽

Lisa A Dorn ◽

Nolan C Kane ◽

Yuko Toyonaga ◽

...

Keyword(s):

Genetic Basis ◽

Allelic Variation ◽

Developmental Pathways ◽

Natural Environments ◽

Reproductive Timing ◽

Controlled Environments ◽

Photoperiod Pathway ◽

Differential Involvement ◽

Short Days ◽

Transition To Flowering

AbstractMolecular biologists are rapidly characterizing the genetic basis of flowering in model species such as Arabidopsis thaliana. However, it is not clear how the developmental pathways identified in controlled environments contribute to variation in reproductive timing in natural ecological settings. Here we report the first study of quantitative trait loci (QTL) for date of bolting (the transition from vegetative to reproductive growth) in A. thaliana in natural seasonal field environments and compare the results with those obtained under typical growth-chamber conditions. Two QTL specific to long days in the chamber were expressed only in spring-germinating cohorts in the field, and two loci specific to short days in the chamber were expressed only in fall-germinating cohorts, suggesting differential involvement of the photoperiod pathway in different seasonal environments. However, several other photoperiod-specific QTL with large effects in controlled conditions were undetectable in natural environments, indicating that expression of allelic variation at these loci was overridden by environmental factors specific to the field. Moreover, a substantial number of QTL with major effects on bolting date in one or more field environments were undetectable under controlled environment conditions. These novel loci suggest the involvement of additional genes in the transition to flowering under ecologically relevant conditions.

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Inter-species functional compatibility of the Theobroma cacao and Arabidopsis FT orthologs: 90 million years of functional conservation of meristem identity genes

BMC Plant Biology ◽

10.1186/s12870-021-02982-y ◽

2021 ◽

Vol 21 (1) ◽

Author(s):

S. F. Prewitt ◽

A. Shalit-Kaneh ◽

S. N. Maximova ◽

M. J. Guiltinan

Keyword(s):

Gene Expression ◽

Tissue Culture ◽

Gene Family ◽

Flowering Time ◽

Molecular Mechanisms ◽

Regulatory Pathways ◽

Late Flowering ◽

Precocious Flowering ◽

Transition To Flowering

Abstract Background In angiosperms the transition to flowering is controlled by a complex set of interacting networks integrating a range of developmental, physiological, and environmental factors optimizing transition time for maximal reproductive efficiency. The molecular mechanisms comprising these networks have been partially characterized and include both transcriptional and post-transcriptional regulatory pathways. Florigen, encoded by FLOWERING LOCUS T (FT) orthologs, is a conserved central integrator of several flowering time regulatory pathways. To characterize the molecular mechanisms involved in controlling cacao flowering time, we have characterized a cacao candidate florigen gene, TcFLOWERING LOCUS T (TcFT). Understanding how this conserved flowering time regulator affects cacao plant’s transition to flowering could lead to strategies to accelerate cacao breeding. Results BLAST searches of cacao genome reference assemblies identified seven candidate members of the CENTRORADIALIS/TERMINAL FLOWER1/SELF PRUNING gene family including a single florigen candidate. cDNA encoding the predicted cacao florigen was cloned and functionally tested by transgenic genetic complementation in the Arabidopsis ft-10 mutant. Transgenic expression of the candidate TcFT cDNA in late flowering Arabidopsis ft-10 partially rescues the mutant to wild-type flowering time. Gene expression studies reveal that TcFT is spatially and temporally expressed in a manner similar to that found in Arabidopsis, specifically, TcFT mRNA is shown to be both developmentally and diurnally regulated in leaves and is most abundant in floral tissues. Finally, to test interspecies compatibility of florigens, we transformed cacao tissues with AtFT resulting in the remarkable formation of flowers in tissue culture. The morphology of these in vitro flowers is normal, and they produce pollen that germinates in vitro with high rates. Conclusion We have identified the cacao CETS gene family, central to developmental regulation in angiosperms. The role of the cacao’s single FT-like gene (TcFT) as a general regulator of determinate growth in cacao was demonstrated by functional complementation of Arabidopsis ft-10 late-flowering mutant and through gene expression analysis. In addition, overexpression of AtFT in cacao resulted in precocious flowering in cacao tissue culture demonstrating the highly conserved function of FT and the mechanisms controlling flowering in cacao.

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