logo
0

EbookBell.com

Most ebook files are in PDF format, so you can easily read them using various software such as Foxit Reader or directly on the Google Chrome browser.
Some ebook files are released by publishers in other formats such as .awz, .mobi, .epub, .fb2, etc. You may need to install specific software to read these formats on mobile/PC, such as Calibre.

Please read the tutorial at this link:  https://ebookbell.com/faq 


We offer FREE conversion to the popular formats you request; however, this may take some time. Therefore, right after payment, please email us, and we will try to provide the service as quickly as possible.


For some exceptional file formats or broken links (if any), please refrain from opening any disputes. Instead, email us first, and we will try to assist within a maximum of 6 hours.

EbookBell Team

Timeresolved Reprogramming Of Single Somatic Cells Into Totipotent States During Plant Regeneration Li Ping Tang

  • SKU: BELL-238987788
Timeresolved Reprogramming Of Single Somatic Cells Into Totipotent States During Plant Regeneration Li Ping Tang
$ 35.00 $ 45.00 (-22%)

4.1

100 reviews

Timeresolved Reprogramming Of Single Somatic Cells Into Totipotent States During Plant Regeneration Li Ping Tang instant download after payment.

Publisher: x
File Extension: PDF
File size: 125.58 MB
Pages: 35
Author: Li Ping Tang, Li Ming Zhai, Jiming Li, Yue Gao, Qiu Li Ma, Rui Li, Qing Fei Liu, Wen Jie Zhang, Wang Jinsong Yao, Bangbang Mu, Chao Qin, Xin Tian, Rahul Shaw, Keke Xia, Jian Xu, Ying Hua Su, Xian Sheng Zhang
ISBN: 10.1016/J.CELL.2025.08.031
Language: English
Year: 2025

Product desciption

Timeresolved Reprogramming Of Single Somatic Cells Into Totipotent States During Plant Regeneration Li Ping Tang by Li Ping Tang, Li Ming Zhai, Jiming Li, Yue Gao, Qiu Li Ma, Rui Li, Qing Fei Liu, Wen Jie Zhang, Wang Jinsong Yao, Bangbang Mu, Chao Qin, Xin Tian, Rahul Shaw, Keke Xia, Jian Xu, Ying Hua Su, Xian Sheng Zhang 10.1016/J.CELL.2025.08.031 instant download after payment.

In Arabidopsis, transcriptional factors LEC2 and SPCH enhance local auxin biosynthesis, establishing a transcriptional framework that enables differentiated single somatic epidermal cells to regain totipotency and uncovering the molecular basis of cellular plasticity and reprogramming.