Decoding the Flower-Anthesis Mechanism in Cestrum nocturnum and Cestrum diurnum

The present study investigates the flower-anthesis mechanism in two closely related plant species, Cestrum diurnum and Cestrum nocturnum . These plants are morphologically similar, but exhibit distinct flowering times: C. diurnum flowers during the day, whereas C. nocturnum blooms at night. This con...

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Published in	Journal of plant growth regulation Vol. 43; no. 10; pp. 3862 - 3877
Main Authors	Fakhrah, Shafquat, Bano, Nasreen, Behera, Soumit Kumar, Rawat, Krishna Kumar, Kumari, Alka, Mohanty, Chandra Sekhar
Format	Journal Article
Language	English
Published	New York Springer US 01.10.2024 Springer Nature B.V
Subjects	Agriculture Biomedical and Life Sciences Cestrum diurnum Cestrum nocturnum Chlorophyll circadian clocks Circadian rhythms Flowering Flowers gene ontology Life Sciences Meristems Morphology Photoperiods photosynthesis Physiological effects Physiology Plant Anatomy/Development plant growth Plant Physiology Plant Sciences Plant species Plants (botany) Sequence analysis species Transcription factors transcriptome Transcriptomes Vernalization De novo sequencing Transcription factor Flower-anthesis qRT-PCR
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Abstract	The present study investigates the flower-anthesis mechanism in two closely related plant species, Cestrum diurnum and Cestrum nocturnum . These plants are morphologically similar, but exhibit distinct flowering times: C. diurnum flowers during the day, whereas C. nocturnum blooms at night. This contrast in flowering time makes them ideal subjects for this study. Physiological parameters like photosynthetic rate, floral development, and chlorophyll content were analyzed along with transcriptome sequencing. Transcripts related to blooming time were analyzed using de novo sequencing analysis, with emphasis on photoperiod, autonomous, circadian clock, and vernalization pathways. Gene Ontology and KEGG pathway enrichment analysis revealed differences in morphology and physiology. Transcription factors ( bHLH, ERF, MYB, and C2H2 ) involved in regulating flowering time were identified between these two species. The delayed flowering of C. nocturnum was validated by qRT-PCR, which showed the involvement of FT , FLC , and CO genes. Physical attributes such as larger leaves and higher chlorophyll content were two distinctive characteristics of C. nocturnum attributed to higher PHYA levels. Explaining the different flowering events between these two species, the study implies that C. nocturnum focuses on flower formation, photoperiodic responses, and meristem management, whereas C. diurnum prioritizes growth and development.
AbstractList	The present study investigates the flower-anthesis mechanism in two closely related plant species, Cestrum diurnum and Cestrum nocturnum. These plants are morphologically similar, but exhibit distinct flowering times: C. diurnum flowers during the day, whereas C. nocturnum blooms at night. This contrast in flowering time makes them ideal subjects for this study. Physiological parameters like photosynthetic rate, floral development, and chlorophyll content were analyzed along with transcriptome sequencing. Transcripts related to blooming time were analyzed using de novo sequencing analysis, with emphasis on photoperiod, autonomous, circadian clock, and vernalization pathways. Gene Ontology and KEGG pathway enrichment analysis revealed differences in morphology and physiology. Transcription factors (bHLH, ERF, MYB, and C2H2) involved in regulating flowering time were identified between these two species. The delayed flowering of C. nocturnum was validated by qRT-PCR, which showed the involvement of FT, FLC, and CO genes. Physical attributes such as larger leaves and higher chlorophyll content were two distinctive characteristics of C. nocturnum attributed to higher PHYA levels. Explaining the different flowering events between these two species, the study implies that C. nocturnum focuses on flower formation, photoperiodic responses, and meristem management, whereas C. diurnum prioritizes growth and development. The present study investigates the flower-anthesis mechanism in two closely related plant species, Cestrum diurnum and Cestrum nocturnum . These plants are morphologically similar, but exhibit distinct flowering times: C. diurnum flowers during the day, whereas C. nocturnum blooms at night. This contrast in flowering time makes them ideal subjects for this study. Physiological parameters like photosynthetic rate, floral development, and chlorophyll content were analyzed along with transcriptome sequencing. Transcripts related to blooming time were analyzed using de novo sequencing analysis, with emphasis on photoperiod, autonomous, circadian clock, and vernalization pathways. Gene Ontology and KEGG pathway enrichment analysis revealed differences in morphology and physiology. Transcription factors ( bHLH, ERF, MYB, and C2H2 ) involved in regulating flowering time were identified between these two species. The delayed flowering of C. nocturnum was validated by qRT-PCR, which showed the involvement of FT , FLC , and CO genes. Physical attributes such as larger leaves and higher chlorophyll content were two distinctive characteristics of C. nocturnum attributed to higher PHYA levels. Explaining the different flowering events between these two species, the study implies that C. nocturnum focuses on flower formation, photoperiodic responses, and meristem management, whereas C. diurnum prioritizes growth and development.
Author	Fakhrah, Shafquat Bano, Nasreen Kumari, Alka Mohanty, Chandra Sekhar Rawat, Krishna Kumar Behera, Soumit Kumar
Author_xml	– sequence: 1 givenname: Shafquat surname: Fakhrah fullname: Fakhrah, Shafquat organization: CSIR-National Botanical Research Institute, Department of Botany, University of Lucknow – sequence: 2 givenname: Nasreen surname: Bano fullname: Bano, Nasreen organization: CSIR-National Botanical Research Institute, Department of Biomedical Sciences, School of Veterinary Medicine, University of Pennsylvania – sequence: 3 givenname: Soumit Kumar surname: Behera fullname: Behera, Soumit Kumar organization: CSIR-National Botanical Research Institute – sequence: 4 givenname: Krishna Kumar surname: Rawat fullname: Rawat, Krishna Kumar organization: CSIR-National Botanical Research Institute – sequence: 5 givenname: Alka surname: Kumari fullname: Kumari, Alka organization: Department of Botany, University of Lucknow – sequence: 6 givenname: Chandra Sekhar orcidid: 0000-0001-9926-4134 surname: Mohanty fullname: Mohanty, Chandra Sekhar email: cs.mohanti@nbri.res.in organization: CSIR-National Botanical Research Institute
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Snippet	The present study investigates the flower-anthesis mechanism in two closely related plant species, Cestrum diurnum and Cestrum nocturnum . These plants are... The present study investigates the flower-anthesis mechanism in two closely related plant species, Cestrum diurnum and Cestrum nocturnum. These plants are...
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SubjectTerms	Agriculture Biomedical and Life Sciences Cestrum diurnum Cestrum nocturnum Chlorophyll circadian clocks Circadian rhythms Flowering Flowers gene ontology Life Sciences Meristems Morphology Photoperiods photosynthesis Physiological effects Physiology Plant Anatomy/Development plant growth Plant Physiology Plant Sciences Plant species Plants (botany) Sequence analysis species Transcription factors transcriptome Transcriptomes Vernalization
Title	Decoding the Flower-Anthesis Mechanism in Cestrum nocturnum and Cestrum diurnum
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