Saiyong Zhu
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Explore the profile of Saiyong Zhu including associated specialties, affiliations and a list of published articles.
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35
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3441
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Recent Articles
1.
Menhas S, Chen M, Jin H, Xu J, Zhu S, Lin D
Int J Phytoremediation
. 2025 Feb;
:1-14.
PMID: 39907292
Foliar application of melatonin shows promise in alleviating oxidative stress in rice, though its influence on metal-nutrient dynamics remains unclear. This study investigated the optimal dosage, timing, and concentration of...
2.
Menhas S, Hayat K, Lin D, Shahid M, Bundschuh J, Zhu S, et al.
Chemosphere
. 2024 Nov;
368:143716.
PMID: 39515533
Citric acid (CA) is well-known for mitigating cadmium (Cd) toxicity in plants. Yet, the underlying mechanisms driving growth promotion, Cd detoxification/tolerance, and enhanced phytoremediation processes remain incompletely understood. This study...
3.
Zhao Y, Xue S, Wei D, Zhang J, Zhang N, Mao L, et al.
J Exp Clin Cancer Res
. 2024 Sep;
43(1):255.
PMID: 39243109
Background: Intrahepatic cholangiocarcinoma (iCCA) is one of the most lethal malignancies and highly heterogeneous. We thus aimed to identify and characterize iCCA cell subpopulations with severe malignant features. Methods: Transcriptomic...
4.
Hu Z, Lu Y, Cao J, Lin L, Chen X, Zhou Z, et al.
Sci Adv
. 2024 Jan;
10(2):eadh9871.
PMID: 38215194
Cell fate transition involves dynamic changes of gene regulatory network and chromatin landscape, requiring multiple levels of regulation, yet the cross-talk between epitranscriptomic modification and chromatin signaling remains largely unknown....
5.
Zhu C, Jiang R, Wen S, Xia T, Zhu S, Hou X
PeerJ
. 2023 Dec;
11:e16560.
PMID: 38111653
Exogenous addition of IAA has the potential to improve the metal tolerance and phytostabilization of plants, but these effects have not been systematically investigated in naturally tolerant plants. Ryegrass (...
6.
A fast chemical reprogramming system promotes cell identity transition through a diapause-like state
Chen X, Lu Y, Wang L, Ma X, Pu J, Lin L, et al.
Nat Cell Biol
. 2023 Aug;
25(8):1146-1156.
PMID: 37550515
Cellular reprogramming by only small molecules holds enormous potentials for regenerative medicine. However, chemical reprogramming remains a slow process and labour intensive, hindering its broad applications and the investigation of...
7.
Jin Y, Lu Y, Lin L, Liu C, Ma X, Chen X, et al.
Proc Natl Acad Sci U S A
. 2023 May;
120(21):e2215155120.
PMID: 37192170
Chemistry-alone approach has recently been applied for incepting pluripotency in somatic cells, representing a breakthrough in biology. However, chemical reprogramming is hampered by low efficiency, and the underlying molecular mechanisms...
8.
Ma X, Cao J, Zhou Z, Lu Y, Li Q, Jin Y, et al.
Nat Commun
. 2022 Jul;
13(1):4148.
PMID: 35851388
Pancreatic differentiation from human pluripotent stem cells (hPSCs) provides promising avenues for investigating development and treating diseases. N-methyladenosine (mA) is the most prevalent internal messenger RNA (mRNA) modification and plays...
9.
Ma X, Lu Y, Zhou Z, Li Q, Chen X, Wang W, et al.
Sci Adv
. 2022 Feb;
8(8):eabk1826.
PMID: 35196077
An unlimited source of human pancreatic β cells is in high demand. Even with recent advances in pancreatic differentiation from human pluripotent stem cells, major hurdles remain in large-scale and...
10.
Wang W, Ren S, Lu Y, Chen X, Qu J, Ma X, et al.
EMBO J
. 2021 Apr;
40(11):e106771.
PMID: 33909912
Chemical compounds have recently been introduced as alternative and non-integrating inducers of pluripotent stem cell fate. However, chemical reprogramming is hampered by low efficiency and the molecular mechanisms remain poorly...