Flavour formation in fungi: characterisation of KlAtf,the <Emphasis Type="Italic">Kluyveromyces lactis</Emphasis> orthologue of the <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> alcohol acetyltransferases Atf1 and Atf2

Volatile aroma-active esters are responsible for the fruity character of fermented alcoholic beverages, such as beer and wine. In the brewers’ yeast Saccharomyces cerevisiae, the major part of these esters is formed by two alcohol acetyltransferases, Atf1 and Atf2. In this paper, the existence of orthologues of these S. cerevisiae alcohol acetyltransferases in several ascomycetous fungi was investigated. Bioinformatic analysis of sequenced fungal genomes revealed the presence of multiple orthologues. The Saccharomyces sensu stricto yeasts all have two genes coding for orthologues. More distantly related fungi like Saccharomyces castelii, Candida glabrata, Kluyveromyces waltii and Kluyveromyces lactis have only one orthologue in their genome. The homology between the identified proteins and the S. cerevisiae alcohol acetyltransferases suggests a role for these orthologues in the aroma-active ester formation. To verify this, the K. lactis orthologue KlAtf was cloned and expressed in S. cerevisiae. Gas chromatographic analysis of small-scale fermentations with the transformant strains showed that, while S. cerevisiae ATF1 overexpression resulted in a substantial increase in acetate ester levels, S. cerevisiae ATF2 and K. lactis ATF overexpression only caused a moderate increase in acetate esters. This study is the first report of the presence of an ester synthesis gene in K. lactis.     

Rapid strain improvement through optimized evolution in the cytostat

Acetate is present in lignocellulosic hydrolysates at growth inhibiting concentrations. Industrial processes based on such feedstock require strains that are tolerant of this and other inhibitors present. We investigated the effect of acetate on Saccharomyces cerevisiae and show that elevated acetate concentrations result in a decreased specific growth rate, an accumulation of cells in the G1 phase of the cell cycle, and an increased cell size. With the cytostat cultivation technology under previously derived optimal operating conditions, several acetate resistant mutants were enriched and isolated in the shortest possible time. In each case, the isolation time was less than 5 days. The independently isolated mutant strains have increased specific growth rates under conditions of high acetate concentrations, high ethanol concentrations, and high temperature. In the presence of high acetate concentrations, the isolated mutants produce ethanol at higher rates and titers than the parental strain and a commercial ethanol producing strain that has been analyzed for comparison. Whole genome microarray analysis revealed gene amplifications in each mutant. In one case, the LPP1 gene, coding for lipid phosphate phosphatase, was amplified. Two mutants contained amplified ENA1, ENA2, and ENA5 genes, which code for P‐type ATPase sodium pumps. LPP1 was overexpressed on a plasmid, and the growth data at elevated acetate concentrations suggest that LPP1 likely contributes to the phenotype of acetate tolerance. A diploid cross of the two mutants with the amplified ENA genes grew faster than either individual haploid parent strain when 20 g/L acetate was supplemented to the medium, which suggests that these genes contribute to acetate tolerance in a gene dosage dependent manner. Biotechnol. Bioeng. 2009;103: 500–512. © 2009 Wiley Periodicals, Inc.     

A gain-of-function screen identifies wdb and lkb1 as lifespan-extending genes in Drosophila

The insulin/insulin-like growth factor (IGF) and the target of rapamycin (TOR) signaling pathways are known to regulate lifespan in diverse organisms. However, only a limited number of genes involved in these pathways have been examined regarding their effects on lifespan. Through a gain-of-function screen in Drosophila, we found that overexpression of the wdb gene encoding a regulatory subunit of PP2A, and overexpression of the lkb1 gene encoding a serine/threonine kinase, reduced organ size and extended lifespan. Overexpression of wdb also reduced the level of phosphorylated AKT, while overexpression of lkb1 increased the level of phosphorylated AMPK and decreased the level of phosphorylated S6K. Taken together, our results suggest that wdb- and lkb1-dependent lifespan extension is mediated by downregulation of S6K, a downstream component of the insulin/IGF and TOR signaling pathways.     

基于16S rRNA和rpoB基因的分子系统发育分析在铜绿假单胞菌鉴定中的应用

为对比16S rRNA和rpo B基因分子系统发育分析与传统表型分类法对铜绿假单胞菌的鉴定,评估16S rRNA和rpo B基因序列分析在铜绿假单胞菌鉴定中的应用,用表型分类方法对临床自动微生物鉴定系统鉴定为铜绿假单胞菌的23株分离株进行再鉴定,PCR扩增23株分离株16S rRNA和rpo B基因片段,并测序进行系统发育分析。结果表明,表型再鉴定结果与自动微生物鉴定系统鉴定结果一致。基于两个基因的系统发育分析均显示分离株p22与不动杆菌属序列聚为一枝,其余22株分离株与铜绿假单胞菌序列聚为一枝。因此p22应鉴定为不动杆菌,16S rRNA和rpo B基因序列分析均能准确鉴定铜绿假单胞菌并能较好建立假单胞菌属内种间关系。     

G9α‐dependent histone H3K9me3 hypomethylation promotes overexpression of cardiomyogenesis‐related genes in foetal mice

Alcohol consumption during pregnancy can cause foetal alcohol syndrome and congenital heart disease. Nonetheless, the underlying mechanism of alcohol‐induced cardiac dysplasia remains unknown. We previously reported that alcohol exposure during pregnancy can cause abnormal expression of cardiomyogenesis‐related genes, and histone H3K9me3 hypomethylation was observed in alcohol‐treated foetal mouse heart. Hence, an imbalance in histone methylation may be involved in alcohol‐induced cardiac dysplasia. In this study, we investigated the involvement of G9α histone methyltransferase in alcohol‐induced cardiac dysplasia in vivo and in vitro using heart tissues of foetal mice and primary cardiomyocytes of neonatal mice. Western blotting revealed that alcohol caused histone H3K9me3 hypomethylation by altering G9α histone methyltransferase expression in cardiomyocytes. Moreover, overexpression of cardiomyogenesis‐related genes (MEF2C, Cx43, ANP and β‐MHC) was observed in alcohol‐exposed foetal mouse heart. Additionally, we demonstrated that G9α histone methyltransferase directly interacted with histone H3K9me3 and altered its methylation. Notably, alcohol did not down‐regulate H3K9me3 methylation after G9α suppression by short hairpin RNA in primary mouse cardiomyocytes, preventing MEF2C, Cx43, ANP and β‐MHC overexpression. These findings suggest that G9α histone methyltransferase‐mediated imbalance in histone H3K9me3 methylation plays a critical role in alcohol‐induced abnormal expression cardiomyogenesis‐related genes during pregnancy. Therefore, G9α histone methyltransferase may be an intervention target for congenital heart disease.     

Differential expression of two genes encoding isoforms of the ATPase involved in sodium efflux in Saccharomyces cerevisiae

Summary The ENA2 gene encoding a P-type ATPase involved in Na⁺ and Li⁺ effluxes in Saccharomyces cerevisiae has been isolated. The putative protein encoded by ENA2 differs only in thirteen amino acids from the protein encoded by ENA1/PMR2. However, ENA2 has a very low level of expression and for this reason did not confer significant Li⁺ tolerance on a Li⁺ sensitive strain. ENA1 and ENA2 are the first two units of a tandem array of four highly homologous genes with probably homologous functions.     

沙棘H3K9乙酰化修饰全基因组分析

为了绘制沙棘H3K9乙酰化修饰图谱,确定H3K9乙酰化修饰所调控的基因,该实验通过Western blot验证抗体与组蛋白的结合能力和ChIP-seq验证抗体富集效率,获得全基因组范围内沙棘H3K9乙酰化修饰图谱和调控基因。实验结果表明,H3K9ac抗体与复合物具有较强的结合能力。对富集到的DNA片段进行高通量测序,分别获得2.2×10~7和3.6×10~7条原始序列;唯一比对序列广泛分布于沙棘基因组中,并且在结构基因中的两端具有明显的富集。对富集区进行峰的预测结果显示,共预测出1 011个峰;对峰所处部位基因进行功能预测结果发现,H3K9ac对于沙棘细胞代谢和信号转导基因的表达具有重要调控作用。沙棘片段化DNA的富集以及高通量测序结果证明,抗体能够用于研究沙棘的组蛋白修饰类型,并且绘制了沙棘第一张H3K9乙酰化修饰遗传图谱草图,鉴定出沙棘H3K9乙酰化修饰所调控的基因,为今后研究组蛋白修饰对沙棘基因表达的调控方式奠定了基础。     

PCR-mediated screening and cloning of a malate synthase genefrom Streptomyces griseus NCIMB 9001

Malate synthase is an essential metabolic enzyme of the glyoxylate bypass that makes possible the replenishment of carbon intermediates to cells grown on acetate. A polymerase chain reaction (PCR)-based molecular screening investigation of full-length malate synthase genes from Streptomyces spp. was initiated by our group. To this end, consensus primers were designed based on known streptomycete malate synthase sequences and successful amplification was obtained for Streptomyces griseus, S. fimbriatus and S. lipmanii. The putative full-length malate synthase gene from S. griseus was subsequently cloned, sequenced and expressed. Sequence analysis of this gene showed very high identity with other streptomycete malate synthase genes. Furthermore, high malate synthase activity was detected after heterologous expression in Escherichia coli, thus demonstrating successfully the rapid cloning and functional verification of a streptomycete malate synthase gene. Growth studies of S. griseus revealed that malate synthase activity was induced by the presence of acetate, which is a two-carbon source. Interestingly, the activity peaked during late growth phase when the biomass was declining, suggesting that the enzyme may have a late role in metabolism.     

Sequence of the E. coli O104 antigen gene cluster and identification of O104 specific genes

The Escherichia coli O104 polysaccharide is an important antigen, which contains sialic acid and is often associated with EHEC clones. Sialic acid is a component of many animal tissues, and its presence in bacterial polysaccharides may contribute to bacterial pathogenicity. We sequenced the genes responsible for O104 antigen synthesis and have found genes which from their sequences are identified as an O antigen polymerase gene, an O antigen flippase gene, three CMP-sialic acid synthesis genes, and three potential glycosyl transferase genes. The E. coli K9 group IB capsular antigen has the same structure as the O104 O antigen, and we find using gene by gene PCR that the K9 gene cluster is essentially the same as that for O104. It appears that the distinction between presence as group IB capsule or O antigen for this structure does not involve any difference in genes present in the O antigen gene cluster. By PCR testing against representative strains for the 166 E. coli O antigens and some randomly selected Gram-negative bacteria, we identified three O antigen genes which are highly specific to O104/K9. This work provides the basis for a sensitive test for rapid detection of O104 E. coli. This is important both for decisions on patient care as early treatment may reduce the risk of life-threatening complications and for a faster response in control of food borne outbreaks.     

Analyses of the acetate-producing pathways in <Emphasis Type="Italic">Corynebacterium glutamicum</Emphasis> under oxygen-deprived conditions

Corynebacterium glutamicum R efficiently produces valuable chemicals from glucose under oxygen-deprived conditions. In an effort to reduce acetate as a byproduct, acetate productivity of several mutant-disrupted genes encoding possible key enzymes for acetate formation was determined. Disruption of the aceE gene that encodes the E1 enzyme of the pyruvate dehydrogenase complex resulted in almost complete elimination of acetate formation under oxygen-deprived conditions, implying that acetate synthesis under these conditions was essentially via acetyl-coenzyme A (CoA). Simultaneous disruption of pta, encoding phosphotransacetylase, and ack, encoding acetate kinase, resulted in no measurable change in acetate productivity. A mutant strain with disruptions in pta, ack and as-yet uncharacterized gene (cgR2472) exhibited 65% reduced acetate productivity compared to the parental strain, although a single disruption of cgR2472 exhibited no effect on acetate productivity. The gene cgR2472 was shown to encode a CoA-transferase (CTF) that catalyzes the formation of acetate from acetyl-CoA. These results indicate that PTA-ACK as well as CTF is involved in acetate production in C. glutamicum. This study provided basic information to reduce acetate production under oxygen-deprived conditions. An erratum to this article can be found at     

The upstream region of the isocitrate lyase gene (UPR-ICL) of Candida tropicalis induces gene expression in both Saccharomyces cerevisiae and Escherichia coli by acetate via two distinct promoters

The upstream region of the isocitrate lyase gene (UPR-ICL, 1530bp) of an n-alkane-utilizable yeast, Candida tropicalis, induced gene expression in another yeast, Saccharomyces cerevisiae, when the yeasts were grown on acetate. Surprisingly, UPR-ICL displayed the same regulatory function in the bacterium Escherichia coli when grown on acetate. We determined the interesting nucleotide sequence of UPR-ICL. The deletion analysis of UPR-ICL in both cells revealed the presence of two distinct promoters: one was localized at-394 to-379 and regulated gene expression in S. cerevisiae; the other was tocated near the initiation codon and regulated gene expression in E. coli. The two promoter sequences were similar, but not identical to regulatory elements that have been previously reported in S. cerevisiae and E. coli, respectively. Accordingly, the possibility of novel regulatory mechanisms could not be excluded. This is an interesting example of the presence of distinct cis-acting regulatory elements responsible for the induction of gene expression in one gene by acetate in both S. cerevisiae and E. coli. Preservation of such promoters through evolution is also discussed.Abbreviations ICL Isocitrate lyase - UPR-ICL Upstream region of the Candida tropicalis isocitrate lyase gene     

Low sequence similarity and gene content of symbiotic clusters of Bradyrhizobium sp. WM9 (Lupinus) indicate early divergence of “lupin” lineage in the genus Bradyrhizobium

Two sequenced nodulation regions of lupin Bradyrhizobium sp. WM9 carried the majority of genes involved in the Nod factor production. The nod region I harbored: nolA, nodD, nodA, nodB, nodC, nodS, nodI, nodJ, nolO, nodZ, fixR, nifA, fixA, nodM, nolK and noeL. This gene arrangement resembled that found in the nodulation region of Bradyrhizobium japonicum USDA110, however strain WM9 harbored only one nodD gene copy, while the nodM, nolK and noeL genes had no counterparts in the 410 kb symbiotic region of strain USDA110. Region II harbored nolL and nodW, but lacked an nodV gene. Both regions carried ORFs that lacked similarity to the published USDA110 sequences, though they had homologues in symbiotic regions of Rhizobium etli, Sinorhizobium sp. NGR234 and Mesorhizobium loti. These differences in gene content, as well as a low average sequence identity (70%) of symbiotic genes with respect to B. japonicum USDA110 were in contrast with the phylogenetic relationship of USDA110 and WM9 revealed by the analysis of 16S rDNA and dnaK sequences. This most likely reflected an early divergence of symbiotic loci, and possible co-speciation with distinct legumes. During this process the loss of a noeI gene and the acquisition of a nolL gene could be regarded as an adaptation towards these legumes that responded to Nod factors carrying 4-O-acetylfucose rather than 2-O-methylfucose. This explained various responses of lupins and serradella plants to infection by mutants in nodZ and nolL genes, knowing that serradella is a stringent legume while lupins are more promiscuous legumes. This revised version was published online in August 2006 with corrections to the Cover Date.     

分离自印度洋深海沉积物的部分链霉菌分离株多位点序列分析

【目的】采用多位点序列分析方法,研究印度洋3 000 m以下深海沉积物中分离得到的16S rRNA基因比对高度相似的链霉菌菌株的种间系统发育关系,同时探讨各管家基因及多基因聚类分析后的种间区分能力。【方法】以分离自印度洋深海沉积物的7株Streptomyces albidoflavus,11株Streptomyces cavourensis,16株Streptomyces pratensis为研究对象,以16S rRNA、atpD、recA和rpoB基因片段为标记,通过PCR扩增、测序,获得序列。同时从NCBI上下载5株S.pratensis上述4个基因的序列,将所有序列在MLST网站进行比对,并构建系统进化树进行比较。【结果】S.pratensis各菌株种内比较发现,16S rRNA基因构建的系统进化树中相同基因型的菌株没有聚在一起,系统进化树不稳定,区分度不高。其余3个构建的系统进化树稳定,菌株的聚类关系与MLST数据库得到的基因型一致。同时,多基因聚类分析后将菌株分为6个类群。在3个种的种间多位点序列比较中,除区分度明显增加、进化树更加稳定以外,还发现rec A基因进化上比较特殊的菌株。【结论】多位点序列分析将实验菌株分为很多不同的类型,成功地将所分离的链霉菌进行了更细的分类,同时也找到部分菌株在个别基因上差异较大。此方法可以用于相近种的快速鉴定。     

Second-site modifiers of the Delta wing phenotype in Drosophila melanogaster

Summary We have screened for dominant enhancers and suppressors of the wing phenotype associated with two Delta alleles: Dl ^9P39, an amorphic allele, and Dl ^FE32, an antimorphic allele. The interactions of some of the modifiers with Delta are due to haplo-insufficient expression of the corresponding genes. Although not explicitly shown for the remaining cases, we assume that haploin-sufficiency is also the basis for the relationships of these genes to Delta, since no allele specific interactions were observed. The modifiers found define 22 genes with pleiotropic expression, which can be classified into two groups: genes required for wing vein pattern formation and for neurogenesis, and genes which are not required for neurogenesis. Among the genes of the first group, Hairless and Star were previously known to participate in neural development. One further modifier was found which may correspond to a new neurogenic gene. The second group of genes is larger and includes already known loci, e.g., Plexate, blistered, plexus, etc, as well as other previously unidentified genes, which function during wing morphogenesis. Correspondence to: J.A. Campos-Ortega     

野生鸟类分离的多重耐药肺炎克雷伯氏菌(Klebsiella pneumoniae)耐药基因分子进化特征研究

【目的】调查野生鸟类携带菌的耐药状况,探索其在细菌耐药性传播过程中的作用。【方法】从野生鸟类石鸡、绯胸鹦鹉、太阳锥尾鹦鹉和黑领椋鸟的新鲜粪便分离4株Klebsiella pneumoniae,采用微量肉汤稀释法评估其多重耐药表型,并利用全基因组测序技术和细菌全因组关联分析、比较基因组学方法对分离株进行分子溯源,系统解析其携带的多重耐药质粒或基因与其宿主、同源质粒间的关联。【结果】4株肺炎克雷伯菌的耐药谱各不相同,来自石鸡样本的分离株S90-2对9种药物耐受,绯胸鹦鹉样本分离株S141对3种药物耐受,太阳锥尾鹦鹉分离株M911-1仅耐受氨苄西林,黑领椋鸟的样本分离株S130-1对所使用的14种药物完全敏感。S90-2属于ST629型,携带bla_CTX-M-14、fosA6、aac(3)-Iid和bla_SHV-11为主的30个耐药基因和携带1个耐药性质粒pS90-2.3 (IncR型)。S141属于ST1662型,携带fosA5、bla_SHV-217等27个耐药基因,1个质粒pS141.1 [IncFIB(K)(pCAV1099-114)/repB型]仅携带耐药基因adeF。M911-1为新ST类型,携带bla_SHV-1、fosA6等共计27个耐药基因,其质粒pM911-1.1携带了3个耐药基因。S130-1属于ST3753型,携带bla_SHV-11、fosA6等27个耐药基因,pS130-1 [IncFIB(K)型]则仅携带一个耐药基因tet(A)。质粒比对表明,质粒pS90-2.3携带的耐药基因片段源自不同的肠杆菌科菌株染色体或质粒。pS90-2.3的同源质粒主要来自人类宿主菌,且主要在中国分布,这些质粒主要细菌宿主为K. pneumoniae和Escherichia coli,且ST11型K. pneumoniae分离株为重要宿主菌。【结论】本研究中来自野生鸟类的多重耐药K. pneumoniae,其耐药基因主要来自质粒,质粒耐药基因主要由转座子、插入序列、整合子和前噬菌体等可移动元件介导,这些多重耐药质粒与人类的宿主菌密切相关。     

挖掘与调控乙酸胁迫响应基因提高重组酿酒酵母合成番茄红素水平

【背景】乙酰辅酶A是酿酒酵母异源合成番茄红素的重要中间产物,胞质中乙酰辅酶A主要来自乙酰辅酶A合成酶催化乙酸合成。【目的】通过外源添加乙酸盐结合调控乙酸胁迫应答基因增加胞内乙酰辅酶A含量,改善细胞生长,促进番茄红素合成。【方法】在合成番茄红素的重组酵母菌中过表达乙酰辅酶A合成酶编码基因(acs2),在发酵过程中添加10g/L乙酸盐,结合转录组学分析挖掘乙酸胁迫响应基因,进行单一和组合调控。【结果】添加乙酸盐后,重组菌Y02中番茄红素含量增加了19.14%,但细胞生长受到抑制,转录组学结果表明adk2、fap7、hem13、elo3、pdc5、set5、pmt5、hst4、clb2和swe1表达水平增加,因此构建了单基因和双基因过表达菌株,其中Y02-set5-hst4菌在添加乙酸盐后细胞生长得到了显著改善,同时胞内乙酰辅酶A浓度提高了78.21%,番茄红素含量和产量达到12.62 mg/g-DCW和108.67 mg/L,与对照菌Y02相比分别提高了42.76%和67.13%。同时该菌中甲羟戊酸途径中关键基因erg12、erg20和hmg1的表达量与对照菌相比分别上调了1.70、1.4...     

代谢工程改造酿酒酵母提高法尼醇产量

【目的】法尼醇(FOH,C₁₅H₂₆O)是一种具有芳香气味的非环状倍半萜醇,被广泛应用于化妆品和医学药物的工业化生产,也可作为航空燃料的理想替代品。具有食品级安全性的酿酒酵母细胞能够合成内源性法尼醇,但其产量很低,无法满足工业生产的需要。因此,需要采用代谢工程手段,改造法尼醇合成途径,以有效提高法尼醇在酿酒酵母中的产量。【方法】以酿酒酵母工业菌株CEN.PK2-1D为底盘细胞,强化甲羟戊酸途径中关键酶的表达水平和弱化麦角固醇合成分支途径,以提高法尼醇合成所需的直接前体物质法尼基焦磷酸(FPP);并分别表达催化FPP合成法尼醇的五种内源磷酸酶和两种异源合酶,筛选能高效合成法尼醇的磷酸酶或合酶。【结果】通过在CEN.PK2-1D(法尼醇产量<0.1mg/L)中强化表达甲羟戊酸途径中截短形式的HMG-CoA还原酶(tHMGR1)和FPP合酶(ERG20),使法尼醇产量提高约50.8倍,达到5.08 mg/L;使用HXT1启动子替换鲨烯合酶编码基因ERG9启动子以下调其表达水平,使法尼醇产量进一步提升47.1倍,达到239.17 mg/L。在此...     

Structural evolution of the Drosophila 5S ribosomal genes

We compare the 5S gene structure from nine Drosophila species. New sequence data (5S genes of D. melanogaster, D. mauritiana, D. sechellia, D. yakuba, D. erecta, D. orena, and D. takahashii) and already-published data (5S genes of D. melanogaster, D. simulans, and D. teissieri) are used in these comparisons. We show that four regions within the Drosophila 5S genes display distinct rates of evolution: the coding region (120 bp), the 5-flanking region (54–55 bp), the 3-flanking region (21–22 bp), and the internal spacer (149–206 bp). Intra- and interspecific heterogeneity is due mainly to insertions and deletions of 6–17-bp oligomers. These small rearrangements could be generated by fork slippages during replication and could produce rapid sequence divergence in a limited number of steps. Correspondence to: M. Wegnez     

巴斯德毕赤酵母不同生长阶段内参基因的筛选与验证

【背景】巴斯德毕赤酵母(Komagataella phaffii)是一种甲基营养型酵母,近年来作为生产重组蛋白和构建生物合成途径的细胞工厂受到广泛关注。实时荧光定量PCR (real-time quantitative PCR,RT-qPCR)是巴斯德毕赤酵母表达系统研究中一种快速、高效的基因表达水平检测技术,但需要进行归一化处理才能保证所得结果的可靠性。【目的】筛选并验证巴斯德毕赤酵母在不同生长阶段最稳定的内参基因用于精准归一化RT-qPCR的结果。【方法】通过转录组数据分析初步筛选出16个候选内参基因(rps8b、rpl35a、rpl10、eif5a、rpl19a、por1、rpl23b、0887、tif1、ole1、rpl14b、gs、sun、sdh2、trx1和ccp1)。通过RT-qPCR技术得到候选内参基因的C_t值,利用qBASE软件中的geNorm程序综合NormFinder算法评估内参基因的表达稳定性。【结果】通过geNorm分析得出精准归一化所需的最佳内参基因个数为2,最稳定的基因是rpl19a和tif1,NormFinder分析得到稳定性最高的内参基因为tif1。此外,利用甲酸脱氢酶编码基因fdh和乙醇脱氢酶甲醛脱氢酶双功能酶的编码基因afdh对候选内参基因进行验证。【结论】巴斯德毕赤酵母不同生长阶段的RT-qPCR进行精准归一化需要tif1和rpl19a这2个内参基因,为相关功能基因的表达定量提供了可靠的分析依据,补充了RT-qPCR分析中的内参基因,为巴斯德毕赤酵母不同生长阶段的基因表达调控及其应用研究提供了新的参考。