Direct somatic embryogenesis and related gene expression networks in leaf explants of Hippeastrum ‘Bangkok Rose’

Hippeastrum, a highly diverse genus in the Amaryllidaceae family, is a valuable ornamental bulbous flowering plant. Somatic embryogenesis(SE) is an efficient method for mass production of Hippeastrum plantlets. Previous studies have been devoted to the in vitro propagation of Hippeastrum, but the SE and its regulatory networks are rarely reported. In this study, we established a direct SE method of Hippeastrum Bangkok Rose' using leaf bases as explants. MS supplemented with 1.00 mg·L^(-1)NAA +1.00 mg·L^(-1)KT + 0.25 mg·L^(-1)TDZ was the optimal medium for SE. Histological observations showed that the bipolar somatic embryo originated from the epidermal cell layer and underwent initiation,globular, scutellar and coleoptile stages. During SE, endogenous hormones of IAA, CTK, ABA, and SA were highly accumulated. Transcriptomic analysis revealed the genes encoding auxin biosynthesis/metabolic enzymes and efflux carriers were induced, while the auxin receptor of TIR1 and ARF transcriptional repressor of Aux/IAA were down-regulated and up-regulated, respectively, leading to suppression of auxin signaling. In contrast, cytokine signaling was promoted at the early stage of SE, as biosynthesis, transport, and signaling components were up-regulated.Various stress-related genes were up-regulated at the early or late stages of SE. Chromatin remodeling could also be dynamically regulated via distinct expression enzymes that control histone methylation and acetylation during SE. Moreover, key SE regulators, including WOXs and SERKs were highly expressed along with SE. Overall, the present study provides insights into the SE regulatory mechanisms of the Hippeastrum.

Bioinformatics Analysis on Regulating Axillary Branch Gene of Cucumber(Cucumis sativus L.)

The regulating axillary branch gene was cloned and named as CsCCD7.Using a series bioinformatic computer softwares,database and online programes,CsCCD7 nucleotide sequence and CsCCD7 amino acid sequence were analyzed and CsCCD7 function was predicted.The results showed that CsCCD7 cDNA full length sequence was 2 136 bp,and included a 1 665 bp ORF which encoded a 554 AA protein;there were 32 kinds of cis-acting regulating element in 2 136 bp cDNA sequence;CsCCD7 was an unstable protein（the unstable coefficient：40.77）,including many phosphorylation sites related with CsCCD7 function;CsCCD7 had no transmembrane domain,and its subcellular localization was in chloroplast.CsCCD7 secondary structure contained four conformations including α-helix,β-sheet,β-turn and random coil.CsCCD7 protein had no signal peptide,so was non-secretory protein and hydrophilicity protein（grand average of hydropathicity：-0.401）.Both CsCCD7 secondary and tertiary structure prediction results showed that it was classified as carotenoid oxygenase family.Phylogenetic tree drew by Geneious showed that CsCCD7 was more closely related to AtCCD7 than any other Arabidopsis CCD protein.

Research Progress of miRNA Regulating Cell Signaling Pathways Related to Hepatocarcinogenesis

Hepatocellular carcinoma(HCC)is one of the most common malignant tumors in clinical practice.The pathogenesis of HCC is still unclear.Currently,the clinical treatment of HCC is poorly targeted and the therapeutic effect is poor.MicroRNAs(miRNAs)are closely related to the occurrence of HCC,and they are mainly involved in the occurrence and development of HCC through binding to target genes or acting on related signaling pathways.In recent years,studies have shown that miRNA can be used as a potential biomarker for diagnosis and prognosis of HCC.In addition,studies have also shown that miRNA plays a tumorsuppressing or tumor-promoting role in the process of HCC by regulating the biological processes of tumor cell proliferation,migration,invasion and metastasis.In this paper,the recent studies on miRNA signaling pathways related to the occurrence and development of HCC were reviewed,with a view to providing ideas for the clinical diagnosis and treatment of HCC.

Regulatory role of NFAT1 signaling in articular chondrocyteactivities and osteoarthritis pathogenesis

Osteoarthritis (OA), the most common form of joint disease, is characterized clinically by joint pain, stiffness,and deformity. OA is now considered a whole joint disease;however, the breakdown of the articular cartilage remains themajor hallmark of the disease. Current treatments targeting OA symptoms have a limited impact on impeding orreversing the OA progression. Understanding the molecular and cellular mechanisms underlying OA development isa critical barrier to progress in OA therapy. Recent studies by the current authors’ group and others have revealedthat the nuclear factor of activated T cell 1 (NFAT1), a member of the NFAT family of transcription factors, regulatesthe expression of many anabolic and catabolic genes in articular chondrocytes of adult mice. Mice lacking NFAT1exhibit normal skeletal development but display OA in both appendicular and spinal facet joints as adults. Thisreview mainly focuses on the recent advances in the regulatory role of NFAT1 transcription factor in the activities ofarticular chondrocytes and its implication in the pathogenesis of OA.

The virulence regulator AbsR in avian pathogenic Escherichia coli has pleiotropic effects on bacterial physiology

Avian pathogenic Escherichia coli(APEC)belonging to extraintestinal pathogenic E.coli(ExPEC)can cause severe infections in extraintestinal tissues in birds and humans,such as the lungs and blood.MprA(microcin production regulation,locus A,herein renamed AbsR,a blood survival regulator),a member of the MarR(multiple antibiotic resistance regulator)transcriptional regulator family,governs the expression of capsule biosynthetic genes in human ExPEC and represents a promising druggable target for antimicrobials.However,a deep understanding of the AbsR regulatory mechanism as well as its regulon is lacking.In this study,we present a systems-level analysis of the APEC AbsR regulon using ChIP-Seq(chromatin immunoprecipitation sequencing)and RNA-Seq(RNA sequencing)methods.We found that AbsR directly regulates 99 genes and indirectly regulates 667 genes.Furthermore,we showed that:1)AbsR contributes to antiphagocytotic effects by macrophages and virulence in a mouse model for systemic infection by directly activating the capsular gene cluster;2)AbsR positively impacts biofilm formation via direct regulation of the T2SS(type II secretion system)but plays a marginal role in virulence;and 3)AbsR directly upregulates the acid tolerance signaling system EvgAS to withstand acid stress but is dispensable in ExPEC virulence.Finally,our data indicate that the role of AbsR in virulence gene regulation is relatively conserved in ExPEC strains.Altogether,this study provides a comprehensive analysis of the AbsR regulon and regulatory mechanism,and our data suggest that AbsR likely influences virulence primarily through the control of capsule production.Interestingly,we found that AbsR severely represses the expression of the type I-F CRISPR(clustered regularly interspaced short palindromic repeats)-Cas(CRISPR associated)systems,which could have implications in CRISPR biology and application.

Molecular aspects of carcinogenesis in pancreatic cancer

BACKGROUND:Pancreatic cancer(PCa)is one of the most aggressive human solid tumors,with rapid growth and metastatic spread as well as resistance to chemotherapeutic drugs,leading rapidly to virtually incurable disease.Over the last 20 years,however,significant advances have been made in our understanding of the molecular biology of PCa,with a focus on the cytogenetic abnormalities in PCa cell growth and differentiation. DATA SOURCES:A MEDLINE search and manual cross- referencing were utilized to identify published data for PCa molecular biology studies between 1986 and 2008, with emphasis on genetic alterations and developmental oncology. RESULTS:Activation of oncogenes,deregulation of tumor suppressor and genome maintenance genes,upregulation of growth factors/growth factor receptor signaling cascade systems,and alterations in cytokine expression,have been reported to play important roles in the process of pancreatic carcinogenesis.Alterations in the K-ras proto- oncogene and the p16INK4a,p53,FHIT,and DPC4 tumor suppressor genes occur in a high percentage of tumors. Furthermore,a variety of growth factors are expressed at increased levels.In addition,PCa often exhibits alterations in growth inhibitory pathways and evades apoptosis through p53 mutations and aberrant expression of apoptosis-regulating genes,such as members of the Bcl family.Additional pathways in the development of an aggressive phenotype,local infiltration and metastasis are still under ongoing genetic research.The present paper reviews recent studies on the pathogenesis of PCa,and includes a brief reference to alterations reported for other types of pancreatic tumor. CONCLUSIONS:Advances in molecular genetics and biology have improved our perception of the pathogenesis of PCa.However,further studies are needed to better understand the fundamental changes that occur in PCa,thus leading to better diagnostic and therapeutic management.

MicroRNAs Involved in the Pathogenesis of Phytophthora Root Rot of Soybean (Glycine max)

Phytophthora root rot is one of the most prevalent diseases in the world,which can infect the seedlings and plants,with substantial negative impact on soybean yield and quality.MicroRNAs （miRNAs） are a class of post-transcriptional regulators of gene expression during growth and development of organisms.A soybean disease-resistance variety Suinong 10 was inoculated with Phytophthora sojae race No.1,and the specific miRNA resistant expression profile was acquired by microarray for the first time.Different expressional miRNAs have been found after comparing the results of the treated sample with the control sample.Furthermore,the target genes of different expressional miRNAs were predicted.Two miRNAs,cbr-mir-241 and ath-miR854a,regulated the disease-resistance process directly through their targets,some enzymes.Another two miRNAs,gma-miR169a and ath-miR169h,participated in disease-resistance regulation as transcription factors.Similarly,one miRNA,ptc-miR164f,has been reported to regulate the plant development.All of these studies would be served as the foundation for exploring the resistance mechanism.

Inducing agent tamoxifen of CreER^(T2) to reduce the side effects of gene therapy for Parkinson’s disease

BACKGROUND：Gene therapy for Parkinson＇s disease is being explored as an effective strategy to restore and protect the function of neuronal cells in the substantia nigra. Regulation of gene expression is necessary for gene therapy to avoid adverse effects due to excessive synthesis of transgene products.OBJECTIVE：Here we developed recombinant adeno-associated virus （AAV） as a viral vector-mediated gene regulation system based on Cre recombinase fused to the mutated ligand-binding domain of the estrogen receptor （CreERT2） ＋ inducing agent tamoxifen. Inducible Cre recombinase was used to reduce tyrosine hydroxylase gene expression and to prevent the excessive increase in dopamine.DESIGN, TIME AND SETTING：A genetic engineering in vitro comparative study and randomized controlled animal experiment. This study was conducted at the Gene Therapy Center, Jichi Medical School, Japan from June 2002 to June 2004.METHODS：To construct a recombinant AAV vector carrying a dopamine synthase gene. The tyrosine hydroxylase gene was inserted using a IoxP fragment that could be regulated by Cre recombinase. The recombinant AAV vector carrying the CreERT2 gene was co-transduced with HEK293 cells and the corpus striatum in a rat model of Parkinson＇s disease, with inducing agent tamoxifen to regulate gene expression.MAIN OUTCOME MEASURES：The levels of dopamine and aromatic L-amino acid decarboxylase （AADC） activity were detected in HEK293 cell medium and in the corpus striatum in a rat model of Parkinson＇s disease using high-performance liquid chromatography. Immunofluorescence double staining was used to observe tyrosine hydroxylase and Cre or AADC co-expression in HEK293 cell medium. Immunohistochemical staining was employed to observe tyrosine hydroxylase and AADC expression and behavioral changes were measured in Parkinson＇s rats.RESULTS：Transfected AAV-CreERT2 and AAV expressing dopamine synthesis enzymes could increase the synthesis of dopamine in HEK293 medium and Parkinson＇s rat striatum （P 〈 0.01） and improve the rotational behavior of Parkinson＇s rats. While tamoxifen markedly reduced overproduction of dopamine caused by cotransfection of viral vectors （P 〈 0.01）, but did not affect the expression and activity of AADC.CONCLUSION：The application of AAV vector-encoded tyrosine hydroxylase gene under the gene regulation system of Cre-ERT2〉, after tamoxifen treatment, can effectively control the generation of genetically modified products to reduce the production of excessive dopamine in vivo and in vitro. Therefore, this method can increase the safety of gene therapy.

Long Non-coding RNA ANRIL in Gene Regulation and Its Duality in Atherosclerosis

The antisense transcript long non-coding RNA（lnc RNA）（antisense non-coding RNA in the INK4 locus, ANRIL） is an antisense of the cyclin-dependent kinase inhibitor 2 B（CDKN2B） gene on chromosome 9 p21 that contains an overlapping 299-bp region and shares a bidirectional promoter with alternate open reading frame（ARF）. In the context of gene regulation, ANRIL is responsible for directly recruiting polycomb group（Pc G） proteins, including polycomb repressive complex-1（PRC-1） and polycomb repressive complex-2（PRC-2）, to modify the epigenetic chromatin state and subsequently inhibit gene expression in cis-regulation. On the other hand, previous reports have indicated that ANRIL is capable of binding to a specific site or sequence, including the Alu element, E2 F transcription factor 1（E2F1）, and CCCTC-binding factor（CTCF）, to achieve trans-regulation functions. In addition to its function in cell proliferation, adhesion and apoptosis, ANRIL is very closely associated with atherosclerosis-related diseases. The different transcripts and the SNPs that are related to atherosclerotic vascular diseases（ASVD-SNPs） are inextricably linked to the development and progression of atherosclerosis. Linear transcripts have been shown to be a risk factor for atherosclerosis, whereas circular transcripts are protective against atherosclerosis. Furthermore, ANRIL also acts as a component of the inflammatory pathway involved in the regulation of inflammation, which is considered to be one of the causes of atherosclerosis. Collectively, ANRIL plays an important role in the formation of atherosclerosis, and the artificial modification of ANRIL transcripts should be considered following the development of this disease.

N-myc downstream regulated gene 1 inhibition of tumor progression in Caco2 cells

BACKGROUND Invasion and migration are the irreversible stages of colorectal cancer(CRC).The key is to find a sensitive,reliable molecular marker that can predict the migration of CRC at an early stage.N-myc downstream regulated gene 1(NDRG1)is a multifunctional gene that has been tentatively reported to have a strong relationship with tumor invasion and migration,however the current molecular role of NDRG1 in CRC remains unknown.AIM To explore the role of NDRG1 in the development of CRC.METHODS NDRG1 stably over-expressed Caco2 cell line was established by lentiviral infection and NDRG1 knock-out Caco2 cell line was established by CRISPR/Cas9.Furthermore,the mRNA and protein levels of NDRG1 in Caco2 cells after NDRG1 over-expression and knockout were detected by real-time polymerase chain reaction and western blot.The cell proliferation rate was measured by the cell counting kit-8 method;cell cycle and apoptosis were detected by flow cytometry;invasion and migration ability were detected by the 24-transwell method.RESULTS NDRG1 over-expression inhibited Caco2 proliferation and the cell cycle could be arrested at the G1/S phase when NDRG1 was over-expressed,while the number of cells in the G2 phase was significantly increased when NDRG1 was knocked out.This suggests that NDRG1 inhibited the proliferation of Caco2 cells by arresting the cell cycle in the G1/S phase.Our data also demonstrated that NDRG1 promotes early cell apoptosis.Invasion and migration of cells were extensively inhibited when NDRG1 was over-expressed.CONCLUSION NDRG1 inhibits tumor progression in Caco2 cells which may represent a potential novel therapeutic strategy for the treatment of CRC.

Two memory associated genes regulated by amyloid precursor protein intracellular domain Novel insights into the pathogenesis of learning and memory impairment in Alzheimer's disease

In this study, we employed chromatin immunoprecipitation, a useful method for studying the locations of transcription factors bound to specific DNA regions in specific cells, to investigate amyloid precursor protein intracellular domain binding sites in chromatin DNA from hippocampal neurons of rats, and to screen out five putative genes associated with the learning and memory functions. The promoter regions of the calcium/calmodulin-dependent protein kinase II alpha and glutamate receptor-2 genes were amplified by PCR from DNA products immunoprecipitated by amyloid precursor protein intracellular domain. An electrophoretic mobility shift assay and western blot analysis suggested that the promoter regions of these two genes associated with learning and memory were bound by amyloid precursor protein intracellular domain （in complex form）. Our experimental findings indicate that the amyloid precursor protein intracellular domain is involved in the transcriptional regulation of learning- and memory-associated genes in hippocampal neurons. These data may provide new insights into the molecular mechanism underlying the symptoms of progressive memory loss in Alzheimer＇s disease.

Use of Rich BHI Medium Instead of Synthetic TMH Medium for Gene Regulation Study in Yersinia pestis

Objective This study is to verify the use of rich BHI medium to substitute synthetic media for gene regulation studies in Yersinia pestis. Methods The transcriptional regulation of rovA by PhoP or via temperature upshift, and that of pla by CRP were investigated when Y. pestis was cultured in BHI. After cultivation under 26 ~C, and with temperature shifting from 26 to 37 ~C, the wild-type （WT） strain or its phoP or crp null mutant （AphoP or Acrp, respectively） was subject to RNA isolation, and then the promoter activity of rovA or plo in the above strains was detected by the primer extension assay. The rovA promoter-proximal region was cloned into the pRW50 containing a promoterless lacZ gene. The recombinant LacZ reporter plasmid was transformed into WT and AphoP to measure the promoter activity of rovA in these two strains with the ^-Galactosidase enzyme assay system. Results When Y. pestis was cultured in BHI, the transcription of rovA was inhibited by PhoP and upon temperature upshift while that ofpla was stimulated by CRP. Conclusion The rich BHI medium without the need for modification to be introduced into the relevant stimulating conditions （which are essential to triggering relevant gene regulatory cascades）, can be used in lieu of synthetic TMH media to cultivate Y. pestis for gene regulation studies.

Design and Implementation of Visual Dynamic Display Software of Gene Expression Based on GTK

The paper presented an implement method for a dynamic gene expression display software based on the GTK. This method established the dynamic presentation system of gene expression which according to gene expression data from gene chip hybridize at different time, adopted a linearity combination model and Pearson correlation coefficient algorithm. The system described the gene expression changes in graphic form, the gene expression changes with time and the changes in characteristics of the gene expression, also the changes in relations of the gene expression and regulation relationships among genes. The system also provided an integrated platform for analysis on gene chips data, especially for the research on the network ofgene regulation.

Regulation of HIF-1 α to Expression of N-myc Downstream Regulated Gene 1 in Colorectal Carcinoma

Plasmid expressing small interfering RNA （siRNA） against HIF-1α （pSilence-2.1-U6-siRNA） was constructed and transfected into LS174T cells in hypoxia condition.After expression of siRNA against HIF-1 α in LS174T cells, expressions of HIF-1 α and N-myc downstream regulated gene 1 （NDRG1） gene were inhibited significantly. HIF-1 cta transcripts were positive in 67.7% （42/62） and 44.4% （8/18） of colorectal adenocarcinoma and adenoma, re- spectively. The mean percentage of cells with positive hybridization of HIF-1 α mRNA increases with the development from Duke stage A to stage C＋D （p〈 0.05）. The positive staining rate of NDRG1 protein was significant higher in than that in colorectal adenoma colorectal adenocarcinoma group group （p〈 0.05）. The level of HIF-1 a transcripts was positively correlated with the level of NDRG1 protein （p 〈 0.05） during colorectal tumor progression. HIF-1α and its down stream gene NDRG1 may play roles in tumor progression of human colorectal carcinoma.

A Study on the Molecular Switch of Gene Expression of the Mouse Heart Nuclear DNA Fragments

It is observed by in situ stain that LDH (1 5) ...nNAD + can probably enter the nucleopore and can be bound bound specifically with the genes that encode them. During the in vitro expression, the dilution of heart nuclear DNA fragments could enhance the expression activity of LDH/DNA and the amount of expressed LDH (1 5) is in proportion to the amount of dissociable LDH (1 5) on the LDH/DNA. With the integration of 14C Leu to the proteins, it is also observed that the addition of LDH (1 5) ...nNAD + can suppress the in vitro expression activity of LDH/DNA. AFM observation shows that the regulation sequence at the both ends of active genes may be bound with such active factors as proteins encoded by the genes which probably is the main molecular switch of gene expression and regulation we have been always searching for. Our work shows the prospective application of the combination of AFM and isotope labeling in the research of biological reaction.

Dynamics of Cylindrospermopsin Production and Toxin Gene Expression in Aphanizomenon ovalisporum

Aphanizomenon ovalisporum is a cylindrospermopsin (CYN)-producing cyanobacteria species that due to its increasing worldwide distribution has become an important health alarm in the last few years. Several clusters of genes involved in CYN production have been described in different CYN+ cyanobacteria genera, named aoa for Aphanizomenon and cyr for Cylindrospermopsis and others strains. The sequences of those genes are highly similar, but a rearrangement in gene order is also observed. The information on the control of CYN production by gene expression is still scarce, especially in Aphanizomenon. To obtain further information about the control of CYN production in A. ovalisporum, we have quantified the intra and extracellular CYN content, during nine days in BG11 batch cultures under optimal conditions. In parallel, the expression of four genes related to CYN synthesis, aoaA-C and cyrJ, has been analyzed by real time q-PCR. The results show a similar pattern of total CYN accumulation and gene expression. Most of the CYN is found intracellularly. Considering the high nitrogen content in the CYN molecule, we have explored if nitrogen assimilation could be related to CYN synthesis. We found inside the aoaA and aoaC sequences several putative binding domains for the global nitrogen regulator NtcA. The pattern of the ntcA expression along the culture is similar to that of CYN accumulation. Our data suggest that CYN production in A. ovalisporum seems to be controlled both by the expression of genesaoa and ntcA, this last one suggesting the influence of available nitrogen;however, other regulation mechanisms of CYN synthesis cannot be discarded.

Insilico Identification of Genes and Molecular Pathways during Aging in <i>Drosophila</i>Brain

The regulation of gene expression in brain vicissitudes during aging is still not much known and explored. Differential gene expression and regulation is a key factor involved to identify the important landmarks within the brain transcriptome to study neuronal aging. Recently, transcriptomic studies are highly explored to understand and depict diseased versus normal as next generation sequencing enables to capture the complete biological context to the entire genome. Study of gene expression during aging compared to young flies provides a signature and scenario of gene expression and regulation during aging. In this study, we took advantage of NGS raw data of young and old flies head from SRA database of NCBI and decrypted the gene expression regulation during normal aging in drosophila model. We identified 350 genes with significant differential expression between young and old flies having 0.01% FDR. Various pathways in context to identified genes which are involved in aging include autophagy i.e. cell death and apoptosis, proteolysis, oxidative stress, declination grey and white matter and neurotransmitter levels, mitochondrial discrepancy, electron transport chain, sugar degradation pathways, activation of transcription factors involved in epigenetic changes, regulators involved in negative and positive regulation WNT signaling pathways, G protein coupled receptor etc. as all these factors contribute to neurodegeneration and possibly dementia in normal aging. So, to find the specific genes and regulators which are differentially expressed in normal aging, we investigate brain transcriptome of normal aging flies compared to young flies which offer a repertoire of genes, regulators and factors involved in network of neurodegeneration to establish direct correlation between aging and dementia. We also identified the pathways which are involved in aging and corresponding gene regulation in these pathways in aging flies brain. It is found that there are some common pathways whose genes and regulators are highly differentially regulated in both aging and dementia.

Responses Taken by Silencing of NFkappaB, STAMP1 and STAMP2 Genes and Expression of NFkB, Act-1, p53 and p73 at -/+ TNFalpha Induced LNCaP Cells

Prostate cancer is the most commonly diagnosed cancer and the second leading cause of cancer mortality in men in the Western World. The effects of androgens are mediated by the Androgen Receptor (AR). Therefore, studies focus on the identification of AR-regulated genes that are also highly expressed in the prostate. STAMP family genes STAMP1/STEAP2 and STAMP2/STEAP4 have only expressed in androgen receptor-positive cells, the role of AR in STAMP family gene expression is an important question. STEAP (Six Transmembrane Epithelial Antigens of Prostate) is the first characterized prostate enriched six transmembrane genes, expressed in metastatic prostate cancer samples, it is tempting to speculate that STAMP/STEAP family genes may be involved in similar functions with a role for both the normal biology and pathophysiology of the prostate. Using siRNA technology in LNCaP cells expressing STAMP genes per se, an apoptosis panel including pro-apoptotic and/or apoptotic molecules was assayed by RT-PCR. In this research project, the prostate-specific STAMP gene family and its regulatory effects on the nuclear factor kappa B and caspase-related pathways were characterized. Considering that the beta-actin response in the control group was high in the immunolabeling studies, an increase in the induction of Tumor Necrosis Factor (TNF) was detected in the signals received with the vital proteins NFkB and akt, which were silenced by siRNA, which means that STAMP genes potentiate vital proteins.

Clostridium difficile Toxin B: Insights into Its Target Genes

Clostridium difficile is a grossly Gram-positive anaerobic bacterium that has been a key factor in inducing imbalances in the gut microbiota in recent years, leading to intestinal-associated inflammation. The main pathogenic toxins of Clostridium difficile are toxin A (TcdA) and toxin B (TcdB). TcdB is the main pathogenic factor of Clostridium difficile infection. This review revealed the pathogenic mechanism of Clostridium difficile toxin B, expounded the impact of Clostridium difficile on the intestinal system, and predicted the genes on which TcdB may act, thereby providing a new therapeutic target for Clostridium difficile infection, offering theoretical basis and new strategies for clinical prevention and control.

Posttranscriptional Control of Gene Expression and Role of Small RNAs in Streptococcus mutans

Streptococcus mutansis a key contributor to the formation of biofilms associated with dental caries disease. Living in the oral environment and developing of disease require tight gene regulation. In bacteria, gene expression is most commonly regulated at the level of transcription initiation. This control involved interactions of specific DNA sequences with regulatory proteins. A second mechanism of control of gene expression is mediated at the RNA level by several mechanisms and is generally called posttranscriptional regulation. These mechanisms include cis- and trans-acting small, non-coding RNAs, RNA-binding proteins, riboswitches, thermosensors, RNases, and Type I toxin-antitoxin systems, and may result in changes in RNA stability, efficiency of ribosome binding, translation initiation, and transcript secondary structures. Here I review the posttranscriptional regulation in S. mutans.