Neetu Verma
@n_verma15670
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Joined October 2023
Verma studies plant sciences because it has tremendous potential to solve various problems such as world food crisis and climate change. #WeAreASPB
https://t.co/sDtE3AYnyP
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https://t.co/UHfLcXGbcT CDKD phosphorylation by MAPKs in rice. Interesting findings by Dhanraj, supported by Neetu, Gopal & Bala. Find the article in New Phytologist @DHANRAJ43478856 @n_verma15670 @Banerjee_Gopal_ @rengasamy1 @SarveshJonwal @NIPGRsocial @DBTIndia
nph.onlinelibrary.wiley.com
CDKs are the master regulator of cell division and their activity is controlled by the regulatory subunit cyclins and phosphorylation by the CAKs. However, the role of MAP kinases in regulating pl...
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Happy to share our latest work on alternative start site usage in phosphate deficiency just published in @ThePlantJournal ! Lots of cool findings, including regulation by uORF, protein localisation, noncoding RNA, and m6A readers. (my last from postdoc!) https://t.co/R2DI9R1XAL
onlinelibrary.wiley.com
Analysis of the alternative transcription start site (TSS) usage landscape revealed that phosphate deficiency induces the use of numerous alternative TSS in Arabidopsis, generating variant transcri...
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MPK4-mediated phosphorylation of PHYTOCHROME INTERACTING FACTOR4 controls thermosensing by regulating histone variant H2A.Z deposition (Neetu Verma, Dhanraj Singh, et. al.) https://t.co/m2YPJTBzmV
@n_verma15670 @DHANRAJ43478856 @alokksinha @NIPGRsocial @ASPB #PlantSci
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An interesting thermosensing interplay among MPK4, PIF4, and ARP6 regulates histone variant H2A.Z deposition. Read the Plant Cell article. Congratulations @n_verma15670 @DHANRAJ43478856 @Banerjee_Gopal_ LM and SN https://t.co/4wBx26fi19
@NIPGRsocial @ThePlantCell @DBTIndia
academic.oup.com
Regulatory mechanism of elevated temperature-mediated thermosensing.
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