Peixian Bai
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Explore the profile of Peixian Bai including associated specialties, affiliations and a list of published articles.
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12
Citations
122
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Recent Articles
1.
Huang H, He S, Zheng X, Shi D, Bai P, Zhao Y, et al.
Genes (Basel)
. 2024 Oct;
15(10).
PMID: 39457441
Background/objectives: The ancient tea plant germplasm resources are rich in genetic diversity and provide an important basis for the genetic diversity in tea germplasm resources. To explore the genetic diversity...
2.
Aktar S, Bai P, Wang L, Xun H, Zhang R, Wu L, et al.
Plants (Basel)
. 2022 Oct;
11(19).
PMID: 36235354
Plant acyl-CoA dominated acyltransferases (named BAHD) comprise a large appointed protein superfamily and play varied roles in plant secondary metabolism like synthesis of modified anthocyanins, flavonoids, volatile esters, etc. Tea...
3.
Zhang L, Li M, Fu J, Huang X, Yan P, Ge S, et al.
Plants (Basel)
. 2022 Sep;
11(17).
PMID: 36079621
The tea plant is an important economic crop and is widely cultivated. Isopentenyl transferase (IPT) is the first and rate-limiting enzyme of cytokinin (CK) signaling, which plays key roles in...
4.
Wang Y, Pang D, Ruan L, Liang J, Zhang Q, Qian Y, et al.
BMC Plant Biol
. 2022 Jul;
22(1):319.
PMID: 35787241
Background: Tea plant breeding or cultivation mainly involves propagation via cuttings, which not only ensures the inheritance of the excellent characteristics of the mother plant but also facilitates mechanized management....
5.
Wang Y, Wei K, Ruan L, Bai P, Wu L, Wang L, et al.
Int J Mol Sci
. 2022 Jun;
23(12).
PMID: 35743106
NRT1/PTR FAMILY (NPF) genes are characterized as nitrate and peptide transporters that played important roles in various substrates transport in plants. However, little is known about the NPF gene in...
6.
Wei K, Wang X, Hao X, Qian Y, Li X, Xu L, et al.
Plant Biotechnol J
. 2021 Dec;
20(3):414-416.
PMID: 34873805
No abstract available.
7.
Bai P, Wang L, Wei K, Ruan L, Wu L, He M, et al.
BMC Biotechnol
. 2021 Mar;
21(1):17.
PMID: 33648478
Background: Alanine decarboxylase (AlaDC), specifically present in tea plants, is crucial for theanine biosynthesis. Serine decarboxylase (SDC), found in many plants, is a protein most closely related to AlaDC. To...
8.
Zhang F, Wang L, Bai P, Wei K, Zhang Y, Ruan L, et al.
J Agric Food Chem
. 2020 Jan;
68(8):2445-2456.
PMID: 31899627
Nitrogen (N) uptake, as the first step of N metabolism, is a key limiting factor for plant growth. To understand the gene expression networks that control N absorption and metabolism...
9.
Bai P, Wei K, Wang L, Zhang F, Ruan L, Li H, et al.
Molecules
. 2019 Feb;
24(3).
PMID: 30717241
Theanine, a unique amino acid in , accounts for more than 50% of total free amino acids in tea and has a significant contribution to the quality of green tea....
10.
Zhang F, Liu Y, Wang L, Bai P, Ruan L, Zhang C, et al.
Gene
. 2018 Mar;
658:136-145.
PMID: 29535022
Ammonium is a major inorganic nitrogen source for tea plant growth and is mainly taken up and transported by ammonium transporters (AMTs). Here, we analyzed the NH uptake kinetics of...