An-Ping Zeng
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Explore the profile of An-Ping Zeng including associated specialties, affiliations and a list of published articles.
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169
Citations
2728
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Recent Articles
1.
Wang Y, Jiang J, Xiong Q, Li S, Shao J, Xie M, et al.
Nat Chem Biol
. 2025 Mar;
PMID: 40087540
Engineering of nuclear condensates with chemically inducible gene switches is highly desired but challenging for precise and on-demand regulation of mammalian gene expression. Here, we harness the phase-separation capability of...
2.
Nie J, Zhang X, Hu Z, Wang W, Schroer M, Ren J, et al.
Nat Commun
. 2025 Mar;
16(1):2449.
PMID: 40069234
Proteins with chemically regulatable phase separation are of great interest in the fields of biomolecular condensates and synthetic biology. Intrinsically disordered proteins (IDPs) are the dominating building blocks of biomolecular...
3.
Nguyen T, Meleski L, Belavatta M, Gurumoorthi S, Zhang C, Heins A, et al.
Eng Life Sci
. 2025 Jan;
25(1):e202400026.
PMID: 39801562
is a microorganism for production of 1,3-propanediol (1,3-PDO) and butanol, but suffers from lacking genetic tools for metabolic engineering to improve product titers. Furthermore, previous studies of have mainly focused...
4.
Liu Y, Zhang C, Zeng A
Biotechnol Adv
. 2024 Sep;
77:108455.
PMID: 39306147
Diols are important platform chemicals with a wide range of applications in the fields of chemical and pharmaceutical industries, food, feed and cosmetics. In particular, 1,3-propanediol (PDO), 1,4-butanediol (1,4-BDO) and...
5.
Feng H, Li F, Wang T, Xing X, Zeng A, Zhang C
Sci Adv
. 2023 Nov;
9(45):eadg5296.
PMID: 37939173
Owing to the nondeterministic and nonlinear nature of gene expression, the steady-state intracellular protein abundance of a clonal population forms a distribution. The characteristics of this distribution, including expression strength...
6.
Herzog J, Mook A, Utesch T, Bengelsdorf F, Zeng A
Front Bioeng Biotechnol
. 2023 Jul;
11:1212044.
PMID: 37425355
Syngas fermentation processes with acetogens represent a promising process for the reduction of CO emissions alongside bulk chemical production. However, to fully realize this potential the thermodynamic limits of acetogens...
7.
Liu J, Zhang H, Xu Y, Meng H, Zeng A
Nat Commun
. 2023 May;
14(1):2772.
PMID: 37188719
The use of gaseous and air-captured CO for technical biosynthesis is highly desired, but elusive so far due to several obstacles including high energy (ATP, NADPH) demand, low thermodynamic driving...
8.
Zhang C, Traitrongsat P, Zeng A
Bioprocess Biosyst Eng
. 2023 Jan;
46(4):565-575.
PMID: 36648555
In this study, we show how electrochemically mediated bioconversion can greatly increase the co-production of 1,3-propanediol and organic acids from glycerol in an industrial bioprocess using a Clostridum pasteurianum mutant....
9.
Herzog J, Mook A, Guhl L, Baumler M, Beck M, Weuster-Botz D, et al.
Eng Life Sci
. 2023 Jan;
23(1):e2100169.
PMID: 36619880
is known to produce mainly acetate from CO and H, but the production of higher value chemicals is desired for the bioeconomy. Using chain-elongating bacteria, synthetic co-cultures have the potential...
10.
Arbter P, Widderich N, Utesch T, Hong Y, Zeng A
Microb Cell Fact
. 2022 Sep;
21(1):178.
PMID: 36050762
Background: Electro-fermentation (EF) is an emerging tool for bioprocess intensification. Benefits are especially expected for bioprocesses in which the cells are enabled to exchange electrons with electrode surfaces directly. It...