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Visualizzazione post con etichetta plant. Mostra tutti i post
Visualizzazione post con etichetta plant. Mostra tutti i post

sabato 9 aprile 2022

# phyto: weird, jazzy Nature, the 'transference of sexuality', 'some sexual consequences of being a plant'.

<< Plants have characteristic features that affect the expression of sexual function, notably the existence of a haploid organism in the life cycle, and in their development, which is modular, iterative and environmentally reactive. For instance, primary selection (the first filtering of the products of meiosis) is via gametes in diplontic animals, but via gametophyte organisms in plants. Intragametophytic selfing produces double haploid sporophytes which is in effect a form of clonal reproduction mediated by sexual mechanisms. In homosporous plants, the diploid sporophyte is sexless, sex being only expressed in the haploid gametophyte. However, in seed plants, the timing and location of gamete production is determined by the sporophyte, which therefore has a sexual role, and in dioecious plants has genetic sex, while the seed plant gametophyte has lost genetic sex. This evolutionary transition is one that E.J.H. Corner called ‘the transference of sexuality’. The iterative development characteristic of plants can lead to a wide variety of patterns in the distribution of sexual function, and in dioecious plants poor canalization of reproductive development can lead to intrasexual mating and the production of YY supermales or WW superfemales. Finally, plant modes of asexual reproduction (agamospermy/apogamy) are also distinctive by subverting gametophytic processes. >>

Quentin Cronk. Some sexual consequences of being a plant. Philos Trans R Soc Lond B Biol Sci. doi: 10.1098/ rstb.2021.0213. Mar 21, 2022. 


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keyword 'phyto' | 'plant' in FonT



keywords: evol, evolution, phyto, plant, sex, sexuality

lunedì 17 maggio 2021

# gst: modeling complex nanofibril-based (cell) walls to meet diverse (bio-physical) constraints.

<< A plant cell wall's unique ability to expand without weakening or breaking -- a quality required for plant growth -- is due to the movement of its cellulose skeleton >>️

<< The new model, (..) reveals that chains of cellulose bundle together within the cell wall, providing strength, and slide against each other when the cell is stretched, providing extensibility. >>

<< The new study, (..) presents a new concept of the plant cell wall, gives insights into plant cell growth, and could provide inspiration for the design of polymeric materials with new properties. >>

<< For a long time, the prevailing concept of a plant cell wall has been that of a gel that is reinforced by cellulose fibers, with the stiff cellulose rods acting like steel rebar in cement, (..) However, we determined that cellulose chains instead stick to each other to form a network of cellulose bundles, which provides a lot more mechanical strength than disconnected rods floating in a gel. And it's the cellulose chains, rather than other components, that limit cell wall expansion, sliding alongside each other like an extension ladder when the cell is stretched. >> Daniel Cosgrove. ️
What makes plant cell walls both strong and extensible? Penn State. May 13, 2021. 


Yao Zhang, Jingyi Yu, et al. Molecular insights into the complex mechanics of plant epidermal cell walls. Science. 
Vol. 372, Issue 6543, pp. 706-711
doi: 10.1126/ science.abf2824. May 14,  2021. 




mercoledì 4 marzo 2020

# gst: apropos of 'fleeting (transient) interactions'

AA << captured highly transient interactions between transcription factors-proteins that control gene expression-and target genes in the genome and showed that these typically missed interactions have important practical implications. >>

<< Our approaches to capturing transient transcription factor-target interactions genome-wide can be applied to validate dynamic interactions of transcription factors for any pathway of interest in agriculture or medicine, >> Gloria Coruzzi. 

Biologists capture fleeting interactions between regulatory proteins and their genome-wide targets. New York University. Mar 2, 2020.

https://m.phys.org/news/2020-03-biologists-capture-fleeting-interactions-regulatory.html

José M. Alvarez, Anna-Lena Schinke, et al. Transient genome-wide interactions of the master transcription factor NLP7 initiate a rapid nitrogen-response cascade. Nat Commun 11, 1157. doi: 10.1038/s41467-020-14979-6. Mar 2, 2020

https://www.nature.com/articles/s41467-020-14979-6