1.Role of transcription factor acetylation in the regulation of metabolic homeostasis.
Joo-Man PARK ; Seong-Ho JO ; Mi-Young KIM ; Tae-Hyun KIM ; Yong-Ho AHN
Protein & Cell 2015;6(11):804-813
Post-translational modifications (PTMs) of transcription factors play a crucial role in regulating metabolic homeostasis. These modifications include phosphorylation, methylation, acetylation, ubiquitination, SUMOylation, and O-GlcNAcylation. Recent studies have shed light on the importance of lysine acetylation at nonhistone proteins including transcription factors. Acetylation of transcription factors affects subcellular distribution, DNA affinity, stability, transcriptional activity, and current investigations are aiming to further expand our understanding of the role of lysine acetylation of transcription factors. In this review, we summarize recent studies that provide new insights into the role of protein lysine-acetylation in the transcriptional regulation of metabolic homeostasis.
Acetylation
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Animals
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Diabetes Mellitus, Type 2
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metabolism
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Homeostasis
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genetics
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physiology
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Humans
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Protein Processing, Post-Translational
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genetics
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physiology
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Transcription Factors
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metabolism
2.Effect of CCH1 and MID1 in calcium influx under alkaline pH and its regulation by Crz1p transcription factor in Candida albicans.
Hui WANG ; Ning XU ; Laijun XING ; Mingchun LI ; Dongsheng WEI
Chinese Journal of Biotechnology 2011;27(6):917-925
In Candida albicans, adaptation to environmental pH is relevant to its pathogenicity. Calcium signaling pathway involves in many stress responses and often accompany with Ca2+ fluctuation. We constructed CCH1 and MID1 mutant strains and studied their effect on calcium influx and further investigated the regulation by Crz1p transcription factor. We used PCR-directed gene disruption to construct cch1delta/delta and mid1delta/delta null mutant. By using a flow cytometry-based method we monitored the free cytosolic Ca2+ levels under alkaline stress. Moreover, we constructed pPHO89-LacZ plasmids and by beta-Galactosidase assays, we analyzed the changes of LacZ activities after gene disruption. The results showed that alkaline stress induced calcium burst reduced obviously in cch1delta/delta and mid1delta/delta mutant strains, also for LacZ activities, and fully abolished in crz1delta/delta mutant strain. Finally, by realtime PCR, we confirmed the regulation role of Crz1p in CCH1 and MID1 genes but in a calcineurin independent way. Studies on the effect of calcium pathway on response to alkaline stress will provide an important theoretical basis for Candida albicans infection-oriented treatment and new drug targets.
Calcium Channels
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metabolism
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Candida albicans
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genetics
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metabolism
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physiology
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Fungal Proteins
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genetics
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physiology
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Gene Expression Regulation, Fungal
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Hydrogen-Ion Concentration
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Signal Transduction
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Stress, Physiological
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Transcription Factors
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metabolism
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physiology
3.ToxR Is Required for Biofilm Formation and Motility of Vibrio Parahaemolyticus.
Long CHEN ; Yue QIU ; Hao TANG ; Ling Fei HU ; Wen Hui YANG ; Xiao Jue ZHU ; Xin Xiang HUANG ; Tang WANG ; Yi Quan ZHANG
Biomedical and Environmental Sciences 2018;31(11):848-850
Bacterial Proteins
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genetics
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metabolism
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Biofilms
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DNA-Binding Proteins
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genetics
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metabolism
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Flagella
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genetics
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metabolism
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Gene Expression Regulation, Bacterial
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Transcription Factors
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genetics
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metabolism
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Vibrio parahaemolyticus
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cytology
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genetics
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growth & development
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physiology
4.Progress in bHLH transcription factors regulating the response to iron deficiency in plants.
Jiahuan DU ; Lihong ZHAI ; Donglin GUO
Chinese Journal of Biotechnology 2019;35(5):766-774
Iron is one of the essential mineral micronutrients for plants. Low concentrations of effective iron in soil can easily increase risk of plant iron deficiency. Several members of bHLH transcription factors family participate in the response to iron deficiency and play an important role in iron regulation of plants. In order to better understand the mechanism of iron deficiency response, an overview of the structure, classification, function and regulatory mechanism of bHLH transcription factors was given in this review as well as signaling pathway triggered by iron deficiency. It will provide theoretical basis and design strategies for cultivating iron deficiency tolerant or iron-rich crops using bHLH transcription factors.
Arabidopsis
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genetics
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metabolism
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Basic Helix-Loop-Helix Transcription Factors
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genetics
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metabolism
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Gene Expression Regulation, Plant
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Iron
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deficiency
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Signal Transduction
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physiology
5.Enhanced proliferation and differentiation of Oct4- and Sox2-overexpressing human adipose tissue mesenchymal stem cells.
Sei Myoung HAN ; Sang Hun HAN ; Ye Rin COH ; Goo JANG ; Jeong CHAN RA ; Sung Keun KANG ; Hee Woo LEE ; Hwa Young YOUN
Experimental & Molecular Medicine 2014;46(6):e101-
Mesenchymal stem cells (MSCs) are attractive candidates for clinical repair or regeneration of damaged tissues. Oct4 and Sox2, which are essential transcription factors for pluripotency and self-renewal, are naturally expressed in MSCs at low levels in early passages, and their levels gradually decrease as the passage number increases. Therefore, to improve MSC proliferation and stemness, we introduced human Oct4 and Sox2 for conferring higher expansion and differentiation capabilities. The Oct4-IRES-Sox2 vector was transfected into human adipose tissue MSCs (ATMSCs) by liposomal transfection and used directly. Oct4 and Sox2 were successfully transfected into ATMSCs, and we confirmed maintenance of MSC surface markers without alterations in both red fluorescent protein (RFP) (control) and Oct4/Sox2-ATMSCs. Enhanced proliferative activity of Oct4/Sox2-ATMSCs was shown by WST-1 assay, and this result was further confirmed by cell counting using trypan blue exclusion for a long period. In addition, FACs cell cycle analysis showed that there was a reduction in the fraction of Oct4/Sox2-ATMSCs in G1 with a concomitant increase in the fraction of cells in S, compared with RFP-ATMSCs. Increased levels of cyclin D1 were also seen in Oct4/Sox2-ATMSCs, indicating acceleration in the transition of cells from G1 to S phase. Furthermore, Oct4/Sox2-overexpressing ATMSCs showed higher differentiation abilities for adipocytes or osteoblasts than controls. The markers of adipogenic or osteogenic differentiation were also upregulated by Oct4/Sox2 overexpression. The improvement in cell proliferation and differentiation using Oct4/Sox2 expression in ATMSCs may be a useful method for expanding the population and increasing the stemness of ATMSCs.
Adipose Tissue/cytology
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*Cell Differentiation
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*Cell Proliferation
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Cells, Cultured
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Humans
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Mesenchymal Stromal Cells/cytology/*metabolism/physiology
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Octamer Transcription Factor-3/genetics/*metabolism
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SOXB1 Transcription Factors/genetics/*metabolism
6.Mechanisms underlying the expression regulation of HOXB4 transcription in hematopoietic stem cells - review.
Journal of Experimental Hematology 2008;16(4):960-963
As a member of the hox gene family, hoxB4 gene encodes a class of DNA-dependent homeobox domain nucleoprotein, which is a specific transcription factor, playing an important role in regulating the balance between self-renewal and differentiation of hematopoietic stem cells (HSCs). Therefore, it is important to understand the mechanisms involved in regulating expression of hoxB4 in the HSC. Previous studies have suggested that some hoxB4 upstream regulatory factors, such as USF-1 (upstream activating factor -1), USF-2 (upstream activating factor -2) and NF-Y complex, as well as hematopoietic cytokines, such as platelet growth factor (TPO) and Wnt3a protein, play important regulatory roles in the expression of hoxB4 in hematopoietic stem cells. In this review the structure and biological characteristics of hoxB4, mechanisms involved in regulating expression of hoxB4 in the HSC are summarized.
CCAAT-Binding Factor
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metabolism
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Gene Expression Regulation
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Genes, Homeobox
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genetics
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physiology
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Hematopoietic Stem Cells
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metabolism
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Homeodomain Proteins
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genetics
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metabolism
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physiology
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Humans
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Transcription Factors
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genetics
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metabolism
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physiology
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Upstream Stimulatory Factors
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metabolism
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Wnt Proteins
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metabolism
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Wnt3 Protein
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Wnt3A Protein
7.Intrinsic and Extrinsic Regulation of Innate Immune Receptors.
Yonsei Medical Journal 2011;52(3):379-392
Pattern recognition receptors (PRRs) in innate immune cells play a pivotal role in the first line of host defense system. PRRs recognize pathogen-associated molecular patterns (PAMPs) or danger-associated molecular patterns (DAMPs) to initiate and regulate innate and adaptive immune responses. PRRs include Toll-like receptors (TLRs), RIG-I-like receptors (RLRs) and NOD-like receptors (NLRs), which have their own features in ligand recognition and cellular location. Activated PRRs deliver signals to adaptor molecules (MyD88, TRIF, MAL/TIRAP, TRAM, IPS-1) which act as important messengers to activate downstream kinases (IKK complex, MAPKs, TBK1, RIP-1) and transcription factors (NF-kappaB, AP-1, IRF3), which produce effecter molecules including cytokines, chemokines, inflammatory enzymes, and type I interferones. Since excessive PRR activation is closely linked to the development of chronic inflammatory diseases, the role of intrinsic and extrinsic regulators in the prevention of over- or unnecessary activation of PRRs has been widely studied. Intracellular regulators include MyD88s, SOCS1, TOLLIP, A20, and CYLD. Extrinsic regulators have also been identified with their molecular targets in PRR signaling pathways. TLR dimerization has been suggested as an inhibitory target for small molecules such as curcumin, cinnamaldehyde, and sulforaphane. TBK1 kinase can be a target for certain flavonoids such as EGCG, luteolin, quercetin, chrysin, and eriodictyol to regulate TRIF-dependent TLR pathways. This review focuses on the features of PRR signaling pathways and the therapeutic targets of intrinsic and extrinsic regulators in order to provide beneficial strategies for controlling the activity of PRRs and the related inflammatory diseases and immune disorders.
Adaptive Immunity
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Gene Expression Regulation
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Humans
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*Immunity, Innate
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*Models, Immunological
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Receptors, Pattern Recognition/genetics/metabolism/*physiology
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Signal Transduction
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Toll-Like Receptors/genetics/metabolism/physiology
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Transcription Factors/physiology
8.Circadian regulation of low density lipoprotein receptor promoter activity by CLOCK/BMAL1, Hes1 and Hes6.
Yeon Ju LEE ; Dong Hee HAN ; Youngmi Kim PAK ; Sehyung CHO
Experimental & Molecular Medicine 2012;44(11):642-652
Low density lipoprotein receptor (LDLR) plays an important role in the cholesterol homeostasis. We examined the possible circadian regulation of LDLR and mechanism(s) underlying it. In mice, blood glucose and plasma triglyceride, total and high density lipoprotein cholesterol varied distinctively throughout a day. In addition, LDLR mRNA oscillated in the liver in a functional clock-dependent manner. Accordingly, analysis of human LDLR promoter sequence revealed three putative E-boxes, raising the possible regulation of LDLR expression by E-box-binding transcription factors. To test this possibility, human LDLR promoter reporter constructs were transfected into HepG2 cells and the effects of CLOCK/BMAL1, Hes1, and Hes6 expression were analyzed. It was found that positive circadian transcription factor complex CLOCK/BMAL1 upregulated human LDLR promoter activity in a serum-independent manner, while Hes family members Hes1 and Hes6 downregulated it only under serum-depleted conditions. Both effects were mapped to proximal promoter region of human LDLR, where mutation or deletion of well-known sterol regulatory element (SRE) abolished only the repressive effect of Hes1. Interestingly, hes6 and hes1 mRNA oscillated in an anti-phasic manner in the wild-type but not in the per1-/-per2-/- mouse. Comparative analysis of mouse, rat and human hes6 genes revealed that three E-boxes are conserved among three species. Transfection and site-directed mutagenesis studies with hes6 reporter constructs confirmed that the third E-box in the exon IV is functionally induced by CLOCK/BMAL1. Taken together, these results suggest that LDLR expression is under circadian control involving CLOCK/BMAL1 and Hes family members Hes1 and Hes6.
ARNTL Transcription Factors/physiology
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Animals
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Base Sequence
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Basic Helix-Loop-Helix Transcription Factors/*genetics/metabolism/physiology
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CLOCK Proteins/physiology
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Cholesterol/blood
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*Circadian Rhythm
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E-Box Elements
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Exons
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*Gene Expression Regulation
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Hep G2 Cells
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Homeodomain Proteins/*genetics/metabolism/physiology
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Homeostasis
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Humans
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Liver/metabolism
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Male
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Mice
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Mice, Inbred C57BL
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*Promoter Regions, Genetic
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Receptors, LDL/*genetics/metabolism
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Repressor Proteins/*genetics/metabolism/physiology
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Transcription, Genetic
9.Systematic temperature signaling regulates behavior plasticity.
Protein & Cell 2011;2(10):774-775
10.Effect of ptxA and ptxB genes of phosphotransferase system on growth of Streptococcus mutans.
Xinyu WU ; Xiaodan CHEN ; Wanghong ZHAO ; Jin HOU ; Xuan CHEN
West China Journal of Stomatology 2016;34(3):302-306
OBJECTIVEThis study aims to evaluate the effect of ptxA and ptxB genes, which are important genes in the L-ascorbate phosphotransferase system (PTS) of Streptococcus mutans (S. mutans).
METHODSThe ptxA-, ptxB-, and ptxAB-double deficient mutant as well as ptxAB-complemented strain were constructed. Quantitative real-time polymerase chain reaction analysis was performed to evaluate the expression of the target genes of wild-type S. mutans when L-ascorbate was used as the sole carbohydrate source. The OD₆₀₀ values of the wild type, deficient, and complemented strains were continuously monitored, and their growth curves were constructed to compare growth capacity.
RESULTSPolymerase chain reaction and sequencing analyses suggested that deficient and complemented strains were successfully constructed. The expression levelsof ptxA and ptxB significantly increased (P < 0.01) when L-ascorbate was used as the sole carbohydrate source. The growth capacity of the deficient mutants decreased compared with that of the wild-type strain. However, the wild-type phenotype could be restored in the complemented strain.
CONCLUSIONptxA and ptxB genes are associated with L-ascorbate metabolism of S. mutans. The construction of deficient strains and complemented strain lay a foundation for further mechanism study on L-ascorbate metabolism in S. mutans.
Bacterial Proteins ; genetics ; Genes, Bacterial ; Phosphotransferases ; metabolism ; Real-Time Polymerase Chain Reaction ; Streptococcus mutans ; physiology ; Transcription Factors ; genetics