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1. Identification of vernalization-related genes and cold memory element (CME) required for vernalization response in radish (Raphanus sativus L.)

   Floral transition is accelerated by exposure to long-term cold like winter in plants, which is called as vernalization. Acceleration of floral...

   Sang Woo Lee, Adji Baskoro Dwi Nugroho, ... Dong-Hwan Kim in Plant Molecular Biology

   Article 16 January 2024
   

2. Transcriptome analysis during vernalization in wheat (Triticum aestivum L.)

   Background

   Vernalization, as a vital process in the life cycle of winter cereal, has important effects on floral organ formation and flowering time....

   Jiao Wang, Lei Sun, ... Shuo Zhou in BMC Genomic Data

   Article Open access 10 August 2023
   

3. Vernalization promotes bolting in sugar beet by inhibiting the transcriptional repressors of BvGI

   Sugar beet ( Beta vulgaris L.), a biennial sugar crop, contributes about 16% of the world’s sugar production. The transition from vegetative growth,...

   Chunxue Zhang, Shengnan Li, ... Zhi Pi in Plant Molecular Biology

   Article 05 June 2024
   

4. Time Course Transcriptomic Analysis of Cabbage (Brassica oleracea ssp. capitata L.) During Vernalization

   Long-term exposure to cold during the winter season, so-called vernalization, triggers the transition from the vegetative to the reproductive stage...

   Heewon Moon, Byoung-Ho Hwang, ... Dong-Hwan Kim in Journal of Plant Biology

   Article 29 May 2024
   

5. Biennial sugar beets capable of flowering without vernalization treatment

   A biennial sugar beet ( Beta vulgaris ) generally takes two years to flower and complete its life cycle. In year one, the plant grows vegetatively and...

   Yosuke Kuroda, Toshikazu Kuranouchi, ... Kazunori Taguchi in Genetic Resources and Crop Evolution

   Article 11 July 2023
   

6. Identification of key gene networks controlling vernalization development characteristics of Isatis indigotica by full-length transcriptomes and gene expression profiles

   Isatis indigotica Fort . , as a common Chinese medicinal raw material, will lose its medicinal value if it blooms early, so it is highly valuable to...

   Pan Wang, Dong Liu, ... Tao Du in Physiology and Molecular Biology of Plants

   Article Open access 24 December 2021
   

7. Vernalization Regulates Flowering Genes and Modulates Glucosinolates Biosynthesis in Chinese Cabbage

   Long-term cold exposure, such as that in winter, termed vernalization, provides flowering competence in many winter-annual, biennial, and perennial...

   Hajeong Kang, Adji Baskoro Dwi Nugroho, ... Dong-Hwan Kim in Journal of Plant Biology

   Article 21 January 2022
   

8. Non-vernalization requirement for flowering in Brassica rapa conferred by a dominant allele of FLOWERING LOCUS T

   Key message

   We identified and characterized a dominant FT allele for flowering without vernalization in Brassica rapa , while demonstrating its...

   Minami Nishikawa, Muluneh Tamiru-Oli, ... Hiroki Takagi in Theoretical and Applied Genetics

   Article 18 May 2023
   

9. Gene co-expression network analysis reveals key pathways and hub genes in Chinese cabbage (Brassica rapa L.) during vernalization

   Background

   Vernalization is a type of low temperature stress used to promote rapid bolting and flowering in plants. Although rapid bolting and...

   Yun Dai, **ao Sun, ... Shujiang Zhang in BMC Genomics

   Article Open access 06 April 2021
   

10. Non-vernalization requirement in Chinese kale caused by loss of BoFLC and low expressions of its paralogs

    Key message

    We identified the loss of BoFLC   gene as the cause of non-vernalization requirement in B. oleracea . Our developed codominant marker of BoFLC ...

    Qiwei Tang, Hanhui Kuang, ... Yue Jia in Theoretical and Applied Genetics

    Article Open access 29 October 2021
    

11. Whole-transcriptome sequencing reveals a vernalization-related ceRNA regulatory network in chinese cabbage (Brassica campestris L. ssp. pekinensis)

    Background

    The transition from vegetative growth to reproductive growth involves various pathways. Vernalization is a crucial process for floral organ...

    Fengyan Shi, Hezi Xu, ... Zhiyong Liu in BMC Genomics

    Article Open access 13 November 2021
    

12. A 215-bp indel at intron I of BoFLC2 affects flowering time in Brassica oleracea var. capitata during vernalization

    Key message

    In response to cold, a 215-bp deletion at intron I of BoFLC2 slows its silencing activity by feedback to the core genes of the PHD-PRC2...

    Qinfei Li, Ao Peng, ... Hongyuan Song in Theoretical and Applied Genetics

    Article 28 June 2022
    

13. Transcriptome analysis reveals Vernalization is independent of cold acclimation in Arabidopsis

    Background

    Through vernalization, plants achieve flowering competence by sensing prolonged cold exposure (constant exposure approximately 2-5 °C)....

    Fei Li, Qian Hu, ... Jia Fu Jiang in BMC Genomics

    Article Open access 21 June 2021
    

14. Copy Number Variation and Expression Dynamics of the Dominant Vernalization-A1a Allele in Wheat

    Adaptability of wheat to various environmental conditions, and wheat’s seasonal growth habits and the development rate are mainly controlled by...

    Alexandr Muterko in Plant Molecular Biology Reporter

    Article 28 September 2023
    

15. MiR396 is involved in plant response to vernalization and flower development in Agrostis stolonifera

    MicroRNA396 (miR396) has been demonstrated to regulate flower development by targeting growth-regulating factor s ( GRFs ) in annual species. However,...

    Shuangrong Yuan, Zhigang Li, ... Hong Luo in Horticulture Research

    Article Open access 01 November 2020
    

16. Gene Flow Between Tetraploid and Hexaploid Wheat for Breeding Innovation

    Durum and bread wheat are two related species with different ploidy levels but a high similarity between the common A and B genomes. This feature,...

    Elisabetta Mazzucotelli, Anna Maria Mastrangelo, ... Luigi Cattivelli in The Wheat Genome

    Chapter Open access 2024
    

17. Effect of vernalization (Vrn) genes on root angles of bread wheat lines carrying rye translocation

    Rye translocation is a significant genetic resource used in the development of drought-tolerant wheat varieties. The effects of vernalization genes...

    Tuğba Güleç, Mesut Ersin Sönmez, ... Nevzat Aydın in Cereal Research Communications

    Article 16 June 2021
    

18. Identification and analysis of a differentially expressed wheat RING-type E3 ligase in spike primordia development during post-vernalization

    Key message

    We identified a RING-type E3 ligase (TaBAH1) protein in winter wheat that targets TaSAHH1 for degradation and might be involved in...

    Jae Ho Kim, Irfan Ullah Khan, ... Yong Weon Seo in Plant Cell Reports

    Article 10 January 2021
    

19. Exploring Flowering Genes in Phalaenopsis through Transcriptome Analysis and Critical Gene Validation of Hormone Signal Transduction Pathway

    Abstract

    In order to study the molecular regulation mechanism of floral transition in Phalaenopsis ( Orchidaceae ), especially in the hormone signal...

    Y. J. Zhang, C. R. Nie, ... J. X. Sun in Russian Journal of Plant Physiology

    Article 23 May 2023
    

20. Temporal Expression Pattern of Bolting-Related Genes During Vernalization in Sugar Beet

    To screen candidate marker genes implicated in vernalization, bolting-related agronomic traits and the expression of genes homologous to the bolting...

    Zhi Pi, Wang **ng, ... Zedong Wu in Sugar Tech

    Article 27 August 2020