慕自新
2026年01月04日 11:10 点击: []
一、实验室目前研究方向
:
(
1
)干热生境下荒漠优势植物权衡蒸腾降温和节水的细胞分子
机制;
(
2
)荒漠先锋植物伴生和共进化的信号分子机制;
(
3
)枸杞植物响应多重非生物逆境的代谢与分子机制
(
4
)黑果枸杞花青素代谢调控及应用研究
二、科研项目与学术成果:
(一)在延科研项目
1.
国自然
-
干热生境下枸杞属植物权衡蒸腾降温和节水的细胞与
分子机制
(32560078)
,
2026-2029, 32
万
2.
塔里木大学校长基金
-
枸杞应答干热胁迫的分子机制解析及耐
干热种质创制
(TDZKZD202503), 2025-2027, 20
万
3.
新疆生产建设兵团重点应用基础研究项目
-
南疆盐碱地黑果枸
杞
-
豆科药用植物间作的固碳和提质增效作用研究
(2024DA005),
2024-2026, 80
万
4.
新疆维吾尔自治区天池英才
-
创新领军人才,黑果枸杞适应南
疆荒漠极端生境的代谢与分子机制
(524307001), 2024-2026, 180
万
5.
国自然
-LrMYB30
负调控黑果枸杞果实呈色反应的分子机制
研究
(32160390), 2022-2025, 36
万
(二)近期发表文章
1.Li G, Zhao JH, Qin BB, Yin Y, An W, Mu ZX*, CaoYL*. ABA
mediates development- depen dent anthocyanin biosynthesis and fruit
coloration in
Lycium
plants. BMC Plant Biology, 2019,19:317
2.Li G, Qin BB, Li S, Yin Y, Zhao JH, An W, Cao YL*, Mu ZX*.
LbNR-derived nitric oxide delays
Lycium
fruit coloration by
transcriptionally modifying flavonoid biosynthetic pathway. Front Plant
Sci, 2020, 11:1215. doi: 10.3389
3.Xu PP, Yin Y, Zhang YJ, An W*, Mu ZX*. Genetic variation in salt
stress response and germplasm resource evaluation among
Lycium
accessions. American Journal of Plant Sciences, 2020, 11: 1765-1783
4.He W, Liu MY, Qin XY, Liang AH, Chen Y, Yin Y, Qin K*, Mu ZX*.
Genome-wide identification and expression analysis of the aquaporin
gene family in
Lycium barbarum
during fruit ripening and seedling
response to heat stress. Curr. Issues Mol. Biol, 2022, 44(12): 5933-5948
5.Qin XY, Qin BB, He W, Chen Y, Yin Y, Cao YL, An W, Mu ZX*,
Qin K*. Metabolomic and transcriptomic analyses of
Lycium barbarum
L.
under heat stress. Sustainability, 2022, 14, 12617
6.Li ZY, Liu JY, Chen Y, Liang AH, He W, Qin XY, Qin K*, Mu ZX*.
Genome-wide identification and expression analysis of PYLs in
Lycium
plants. Plants(Basel), 2024, 13(6): 887
7.Wu QC, Wang YJ, Mu ZX*. Identification of the HSP20 gene family
in L.
barbarum
and their contrasting response to heat stress between two
varieties. Genes, 2025, 16(4): 440
三、联系方式
E-mail: muzx810@126.com
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