祁庆生
Professor
Gender:
Male
Status:
Employed
School/Department:
微生物技术研究院
Date of Employment:
2003-12-25
Paper Publications
-
2023-12-20
[1]
崔志勇.
Reconfiguration of the reductive TCA cycle enables high-level succinic acid production by Yarrowi....
NATURE COMMUNICATIONS,
2023.
-
2022-10-11
[2]
刘萌萌.
Rapid Gene Target Tracking for Enhancing beta-Carotene Production Using Flow Cytometry-Based High....
Applied and Environmental Microbiology,
88,
2022.
-
2023-12-01
[3]
张妍.
Efficient production of 2′-fucosyllactose in unconventional yeast Yarrowia lipolytica.
Synth Syst Biotechnol,
8,
716-723,
2023.
-
2023-11-01
[4]
李浩然.
Engineered probiotic Lactobacillus plantarum WCSF I for monitoring and treatment of Staphylococcu....
Microbiol. Spectr.,
2023.
-
2023-03-01
[5]
祝远.
De novo design of the global transcriptional factor Cra-regulated promoters enables highly sensit....
MICROBIAL BIOTECHNOLOGY,
16,
605,
2023.
-
2023-10-06
[6]
Wang, Sumeng.
Creating Polyploid Escherichia Coli and Its Application in Efficient L-Threonine Production.
Advanced Science,
2023.
-
2023-12-01
[7]
靳鑫.
The Construction of the Self-Induced Sal System and Its Application in Salicylic Acid Production.
Molecules,
28,
2023.
-
2023-09-07
[8]
王格格.
Dynamic plasmid copy number control for synthetic biology.
Trends in biotechnology,
2023.
-
2023-11-09
[9]
Xiaomeng Li.
Construction of cascade circuits for dynamic temporal regulation and its application to PHB produ....
Biotechnology for biofuels and bioproducts,
16,
2023.
-
2023-03-05
[10]
马帅.
Repurposing endogenous type II CRISPR‐Cas9 system for genome editing in Streptococcus thermophil....
Biotechnology and Bioengineering,
2023.
-
2023-03-05
[11]
马帅.
Bacterial genome reduction for optimal chassis of synthetic biology: a review.
CRITICAL REVIEWS IN BIOTECHNOLOGY,
2023.
-
2023-02-14
[12]
.
Identification and Molecular Modification of<i> Staphylococcus</i><i> aureus</i> Bacteriophage Ly....
ACS Infectious Diseases,
2023.
-
2023-08-30
[13]
郭李坤.
Using a synthetic machinery to improve carbon yield with acetylphosphate as the core.
NATURE COMMUNICATIONS,
5286,
2023.
-
2023-03-01
[14]
张健.
Heme biosensor?guided in vivo pathway optimization and directed evolution for efficient biosynth....
BIOTECHNOLOGY FOR BIOFUELS AND BIOPRODUCTS,
2023.
-
2023-05-13
[15]
谷菲.
A synthetic population-level oscillator in non-microfluidic environments.
Communications Biology ,
2023.
-
2022-09-21
[16]
王苏蒙.
Genetically encoded ATP and NAD(P)H biosensors: potential tools in metabolic engineering.
CRITICAL REVIEWS IN BIOTECHNOLOGY,
2022.
-
2022-08-15
[17]
Li Xiaomeng.
A Gene Circuit Combining the Endogenous I-E Type CRISPR-Cas System and a Light Sensor to Produce ....
Biosensors-Basel,
2022.
-
2023-03-02
[18]
.
Dynamic and balanced regulation of the thrABC operon gene for efficient synthesis of L-threonine.
Frontiers in Bioengineering and Biotechnology,
2023.
-
2022-06-01
[19]
王苏蒙.
Dynamic Regulation of Transporter Expression to Increase L-Threonine Production Using L-Threonine....
FERMENTATION-BASEL,
8,
2022.
-
2021-11-11
[20]
刘萌萌.
Morphological and Metabolic Engineering of Yarrowia lipolytica to Increase β-Carotene Production....
ACS Synthetic Biology,
10,
3551-3560,
2021.
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