High cell density cultivation of recombinant <Emphasis Type="Italic">E. coli</Emphasis> for hirudin variant 1 production by temperature shift controlled by pUC18-based replicative origin

The copy number of a plasmid, pUC-based vector, was previously shown to be affected by culture temperature. In this study, intracellular hirudin variant 1 (f-HV1) fused to porcine adenylate kinase protein was produced using recombinant Escherichia coli by temperature shift cultivation coupled with a high cell density cultivation technique for E. coli JM109. The optimal temperature for cellular growth suppressing f-HV1 production was 33 degrees C, resulting in a final dried cell concentration of 45.7 g/l, with a specific growth rate of 0.54 1/h. Optimizing the temperature-shift conditions (temperature shifted to an OD660 nm of 15 from 33 degrees C to 37 degrees C) resulted in the production of f-HV1 up to 4763 mg/l as an inclusion body with dried cell concentration of 44 g/l in 18 h.     

Bioaugmentation of the decolorization rate of acid red GR by genetically engineered microorganism <Emphasis Type="Italic">Escherichia coli</Emphasis> JM109 (pGEX-AZR)

The study showed that the genetically engineered microorganism (GEM) bioaugment successfully the dye wastewater biotreatment systems to enhance acid red GR (ARGR) removal. Escherichia coli JM109 (pGEX-AZR) was the GEM with higher azoreductase activity. The kinetics of the ARGR decolorization by the E. coli JM109 (pGEX-AZR) agreed with Andrews model. The kinetic parameters, r _dye,max, K _s and K _i , were found to be 42.45 mg g⁻¹ h⁻¹, 584.93 mg L⁻¹ and 556.89 mg L⁻¹, respectively. The E. coli JM109 (pGEX-AZR) was tested in anaerobic sequencing batch reactors (AnSBR) in order to enhance the ARGR decolorization. The decolorization rate of ARGR was affected by the amount of E. coli JM109 (pGEX-AZR) inoculation and the best amount of inoculation was 10%. The continuous operations of the four bioreactors with different E. coli JM109 (pGEX-AZR) immobilization supports showed that the E. coli JM109 (pGEX-AZR) could bioaugment decolorization in AnSBRs with suspended and immobilized on macroporous foam carriers. For 42 days continuous operation in the AnSBRs, both the tolerance to ARGR concentration shock and the decolorization rate in these two bioaugmented AnSBRs are higher than those of the other two systems, control system and bioaugmented AnSBRs system with the sodium-alginate immobilized cells, the decolorization rate reached 90%. Changes in microbial community were detected by ribosomal intergenic spacer analysis (RISA) and amplified ribosomal DNA restriction analysis (ARDRA), which revealed that the introduced E. coli JM109 (pGEX-AZR) was persistent in the augmented systems and maintained higher metabolic activity.     

A comparison of protocols for the optimisation of detection of bacteria using a surface acoustic wave (SAW) biosensor

A dual channel surface acoustic wave (SAW) device has been used as a biosensor to detect two different microorganisms, Legionella and Escherichia coli, simultaneously. A series of experiments was conducted to optimise the use of the SAW for bacterial detection using a novel protocol of coating bacteria on the sensor surface prior to addition of the antibody. Results were compared with an experiment in which a conventional protocol was utilised, where antibody was coated on the sensor surface prior to exposure to bacteria. The concentration of bacteria that attached to the surface of the SAW device was related to the antibody that specifically bound to it and therefore to frequency in a dose dependent fashion. Unlike conventional microbiological techniques quantitative results can be obtained for Legionella and E. coli down to 10(6) cells per ml within 3 h. In addition E. coli was detected down to 10(5) cells per ml in a modified protocol using sheep IgG as a blocking agent.     

Molecular Identification of Aeromonas and Coliform Bacteria Isolated on m Endo Media from Lake Erie Waters

Summary Bacteria from recreational waters collected from two Lake Erie beaches in Dunkirk, New York were plated onto m Endo LES media. The 16S rRNA gene was then amplified from coliform and non-coliform bacteria using the polymerase chain reaction. The PCR products were characterized by restriction fragment length polymorphism (RFLP) analysis. A total of 8 RFLP groups were identified from the analysis of 920 samples and selected PCR products from each group were sequenced. The DNA sequence analysis indicated that more than half of the bacteria identified as coliforms on the m Endo plates belonged to the genus Aeromonas from the family Aeromonadaceae. Most of the remaining coliforms were from the Enterobacteriaceae. The data indicate that m Endo agar plates allow the growth of non-coliform bacteria, especially Aeromonas species.     

白花丹素对E.coli藻酸盐合成的抑制作用

细菌分泌的胞外多糖在生物被膜的形成和发展过程中发挥着重要作用。通过测定白花丹素对大肠埃希菌10389菌株(E.coli 10389)藻酸盐合成的影响及其对rse A和rpo E基因表达量的影响,探讨白花丹素对大肠埃希菌生物被膜(biofilm,BF)形成的抑制作用及机制。研究结果显示,白花丹素能抑制E.coli 10389生物被膜的形成,其抑杀E.coli 10389的最低抑菌浓度(minimum inhibitory concentration,MIC)和最低杀菌浓度(minimal bactericidal concentration,MBC)分别为16和64μg/mL。白花丹素对成熟BF内的细菌也有抑制和杀灭作用,其抑杀E.coli 10389成熟BF内细菌的MIC和MBC分别为64和128μg/mL。白花丹素能够抑制E.coli 10389藻酸盐的合成,其中1/2MIC的白花丹素作用E.coli 10389 24 h后,与对照组比,藻酸盐的合成量降低了34.83%(P0.01)。白花丹素可显著影响E.coli 10389 rse A和rpo E基因的相对表达量,其中1/2MIC的白花丹素作用E.coli 10389 24 h后,与对照组相比,rse A的表达量上调了17.43%,rpo E的表达量降低了12.8%(P0.05)。结果表明,白花丹素能够抑制E.coli 10389 BF的形成,其作用机制可通过影响rse A和rpo E的基因表达量,进而抑制藻酸盐的合成来抑制大肠埃希菌生物被膜的形成。     

荧光标记噬菌体快速检测K1荚膜大肠杆菌方法的建立及应用

【背景】大肠杆菌(Escherichia coli,E.coli)是引发新生儿脑膜炎和禽类脑膜炎最常见的革兰氏阴性菌,其中含K1荚膜大肠杆菌是重要的病原菌。目前,K1荚膜大肠杆菌的检测方法存在一些弊端。【目的】利用PNJ1809-36噬菌体的宿主特异性建立快速检测K1荚膜大肠杆菌的方法。【方法】用荧光染料SYBR Gold标记PNJ1809-36噬菌体,侵染33株受试菌,在荧光显微镜下观察,测定该方法的特异性;倍比稀释宿主菌DE058,用荧光标记噬菌体侵染,测定该方法的灵敏度;用荧光标记噬菌体检测8份模拟粪样,测定该方法的临床应用效果;测定4℃避光保存4个月的荧光标记噬菌体的效价和检测效果。【结果】33株受试菌中的9株K1荚膜大肠杆菌有8株可见环状荧光,1株未能检出;20株非K1荚膜大肠杆菌以及4株非大肠杆菌属细菌均不能观察到荧光,检测灵敏度达100CFU/mL。8份模拟粪样的检测结果显示,3份含有K1荚膜大肠杆菌的粪样均可见环状荧光,5份不含K1荚膜大肠杆菌的粪样均无荧光。荧光标记噬菌体4℃避光保存4个月后效价无明显下降,检测效果无明显变化,表明该荧光标记噬菌体在4℃避光条件下较稳定...     

Escherichia coli and its application in a mediated amperometric glucose sensor

Escherichia coli cells, which contain apo-glucose dehydrogenase, were used in constructing a mediated amperometric glucose sensor. The E. coli modified glucose sensor, which was prepared by immobilizing E. coli cells behind a dialysis membrane on a carbon paste electrode containing 2,3-dimethoxy-5-methyl-1,4-benzoquinone (Q(0)), produced a current for the electrocatalytic oxidation of glucose with Q(0) as an electron transfer mediator only after the addition of a trace amount of pyrroloquinoline quinone (PQQ), the cofactor of the enzyme. This allows a novel method of glucose measurements free from the interference of the redox active substances, if contained, in a sample solution. The glucose sensor was insensitive to dioxygen; the currents measured under anaerobic and aerobic conditions, and even under dioxygen saturated conditions were almost the same in magnitude at a given concentration of glucose over the range of 0.2-10 mM. Response time of the glucose sensor was 2 min to attain 90% level of the steady-state current. The E. coli modified glucose sensor was reusable when treated with ethylenediaminetetraacetic acid (EDTA). When E. coli cells were lyophilized, they could be stored at room temperature in a dry box for more than six months without loss of the catalytic activity.     

The Pho Regulons of Bacteria

Bacterial Pho regulons contain genes whose products are involved in the transport and assimilation of inorganic phosphate. The expression of these genes is regulated by a specific two-component signal transduction system. The paper summarizes data on the organization and function of Pho regulons in gram-negative and gram-positive bacteria, with particular emphasis on the Pho regulons of the best studied bacteria Escherichia coli and Bacillus subtilis.     

病原菌多重耐药与生物膜表型和毒力因子的相关性

本文旨在研究导尿管相关尿路感染病原菌多重耐药与生物膜表型和毒力因子的相关性。选取2018年1月至2019年12月于沈阳市第四人民医院住院期间出现导尿管相关尿路感染的患者为研究对象,收集尿液培养标本,使用全自动微生物鉴定仪和纸片扩散法进行菌株鉴定和药敏试验。根据药敏试验结果,将大肠埃希菌分为多重耐药组和非多重耐药组。紫外分光光度法测定多重耐药组和非多重耐药组大肠埃希菌的生物膜附着力。PCR法分析多重耐药组和非多重耐药组参与大肠埃希菌4种毒力因子(黏附素、保护素、细胞毒素、铁载体)编码的16种基因表达水平。 共收集156例患者的尿液,并从尿液培养标本中分离出病原菌172株,其中大肠埃希菌97株（56.7%）占比最多。药敏试验结果显示,多重耐药组大肠埃希菌对各类抗菌药物的耐药率均超过60%。与非多重耐药组相比,多重耐药组大肠埃希菌生物膜阳性率差异有统计学意义（P<0.05）,附着力强度等级差异也有统计学意义（P<0.05）。多重耐药组大肠埃希菌与黏附素相关4种毒力基因fimH、sfa、afa、iha表达明显高于非多重耐药组,差异具有统计学意义(P<0.05)。导尿管相关尿路感染病原菌的多重耐药与毒力因子参与产生强附着力生物膜表型有关。     

Norepinephrine-dependently released Dr fimbriae of diffusely adhering Escherichia coli strain IH11128 promotes a mitogen-activated protein kinase ERK1/2-dependent production of pro-inflammatory cytokine, IL-8 in human intestinal Caco-2/TC7 cells

The diffusely adhering Escherichia coli (Afa/Dr DAEC) are associated with recurrent urinary tract infections in adults as well as with diarrheal disease in infants. We previously demonstrated that in wild-type strain IH11128, the Dr fimbriae is released in the extracellular medium in response to multiple environmental signals such as temperature, low aeration and rich medium. A number of molecules of eukaryotic origin, such as catecholamines, have been reported to stimulate bacterial growth and virulence factor production. We show that norepinephrine affects the production and release of Dr fimbriae in Afa/Dr DAEC WT-IH11128 bacteria. The regulatory mechanism involved with norepinephrine-induced Dr fimbriae liberation was apparently due to a differential induction of genes draC, encoding the usher, and draE, encoding the major fimbrial subunit. In addition, we show that the released Dr fimbriae induces the phosphorylation of the mitogen-activated protein kinase, extracellular signal-regulated kinase 1/2 (ERK1/2) and the production of the pro-inflammatory cytokine, IL-8 in fully differentiated cultured human intestinal Caco-2/TC7 cells.     

Evaluation of antibody immobilization methods for piezoelectric biosensor application

The immobilization of anti-Salmonella antibodies by two methods were studied and evaluated for their potential use in a piezoelectric biosensor. The optimum temperature-time combinations for the highest immobilization yields were determined for both methods. Protein A binding was found to be 67.4+/-3.8% on the gold surface which then allowed an immobilization of 42.1+/-2.09% antibody. The degree of antibody immobilization via surface aldehyde groups of glutaraldehyde (GA) on a precoated quartz crystal with polyethylenimine (PEI) was 31.6+/-0.3%. A piezoelectric probe was designed and used in dry assays to observe the frequency change due to addition of mass by the immobilization layers. The frequency changes recorded showed a better reproducibility and less added mass for the Protein A method. The frequency decrease due to microg of added antibodies was compared to frequency decrease calculated by the Sauerbrey equation. The experimental data was found to be only approximately 8% of theoretical data. The functionality of the immobilized antibodies with the Protein A method was tested with S. typhimurium in a wet chamber and the frequency decrease was compared to results of a similar system activated with PEI-GA immobilization. The frequency decreases with S. typhimurium concentration of approximately 1.5 x 10(9) CFU/ml were 50+/-2 Hz and 44+/-3 Hz for the Protein A method and PEI-GA method, respectively. It was concluded that although both methods resulted in comparable activities in terms of % immobilized protein and frequency decreases due to Salmonella binding, the Protein A method was favorable due to stability and better reproducibility of the immobilization layers.     

Modeling of the pyruvate production with<Emphasis Type="Italic"> Escherichia coli</Emphasis> in a fed-batch bioreactor

A family of 10 competing, unstructured models has been developed to model cell growth, substrate consumption, and product formation of the pyruvate producing strain Escherichia coli YYC202 ldhA::Kan strain used in fed-batch processes. The strain is completely blocked in its ability to convert pyruvate into acetyl-CoA or acetate (using glucose as the carbon source) resulting in an acetate auxotrophy during growth in glucose minimal medium. Parameter estimation was carried out using data from fed-batch fermentation performed at constant glucose feed rates of q_VG=10 mL h^–1. Acetate was fed according to the previously developed feeding strategy. While the model identification was realized by least-square fit, the model discrimination was based on the model selection criterion (MSC). The validation of model parameters was performed applying data from two different fed-batch experiments with glucose feed rate q_VG=20 and 30 mL h^–1, respectively. Consequently, the most suitable model was identified that reflected the pyruvate and biomass curves adequately by considering a pyruvate inhibited growth (Jerusalimsky approach) and pyruvate inhibited product formation (described by modified Luedeking–Piret/Levenspiel term).List of symbols c_A acetate concentration (g L^–1) - c_A,0 acetate concentration in the feed (g L^–1) - c_G glucose concentration (g L^–1) - c_G,0 glucose concentration in the feed (g L^–1) - c_P pyruvate concentration (g L^–1) - c_P,max critical pyruvate concentration above which reaction cannot proceed (g L^–1) - c_X biomass concentration (g L^–1) - K_I inhibition constant for pyruvate production (g L^–1) - K_I^A inhibition constant for biomass growth on acetate (g L^–1) - K_P saturation constant for pyruvate production (g L^–1) - K_P inhibition constant of Jerusalimsky (g L^–1) - K_S^A Monod growth constant for acetate (g L^–1) - K_S^G Monod growth constant for glucose (g L^–1) - m_A maintenance coefficient for growth on acetate (g g^–1 h^–1) - m_G maintenance coefficient for growth on glucose (g g^–1 h^–1) - n constant of extended Monod kinetics (Levenspiel) (–) - q_V volumetric flow rate (L h^–1) - q_VA volumetric flow rate of acetate (L h^–1) - q_VG volumetric flow rate of glucose (L h^–1) - r_A specific rate of acetate consumption (g g^–1 h^–1) - r_G specific rate of glucose consumption (g g^–1 h^–1) - r_P specific rate of pyruvate production (g g^–1 h^–1) - r_P,max maximum specific rate of pyruvate production (g g^–1 h^–1) - t time (h) - V reaction (broth) volume (L) - Y_P/G yield coefficient pyruvate from glucose (g g^–1) - Y_X/A yield coefficient biomass from acetate (g g^–1) - Y_X/A,max maximum yield coefficient biomass from acetate (g g^–1) - Y_X/G yield coefficient biomass from glucose (g g^–1) - Y_X/G,max maximum yield coefficient biomass from glucose (g g^–1) - growth associated product formation coefficient (g g^–1) - non-growth associated product formation coefficient (g g^–1 h^–1) - specific growth rate (h^–1) - _max maximum specific growth rate (h^–1)     

和厚朴酚对大肠埃希氏菌生物被膜形成的抑制机制

【目的】研究不同浓度的和厚朴酚(honokiol)抑制大肠埃希菌(Escherichia coli)的供试菌株10389生物被膜(biofilm,BF)形成的作用机制。【方法】用氯化三苯基四氮唑比色法(TTC)和四唑盐减低法(XTT)测定honokiol抑制E.coli10389生物被膜形成的药物最低抑菌浓度(MIC)和最低杀菌浓度(MBC)及其抑制作用与时间的关系;通过qRT-PCR法检测不同浓度的honokiol对E. coli 10389生物被膜形成基因和群体感应系统相关基因表达量的影响;通过生物发光法和qRT-PCR法检测亚-MIC honokiol对E. coli 10389呋喃糖基硼酸二酯(AI-2)及其调控的与生物被膜形成相关的下游基因表达量的影响。【结果】Honokiol能抑制E.coli10389生物被膜的形成,但不同浓度的honokiol抑制E. coli 10389 BF形成的作用机制不同。其中,与对照组相比,MIC的honokiol能使E. coli 10389 BF形成相关基因编码毒素(hha)和细菌酸性调节因子(ari R) mRNA的表达量显著提高,抗毒素...     

Enterohemorrhagic Escherichia coli trivalent recombinant vaccine containing EspA, intimin and Stx2 induces strong humoral immune response and confers protection in mice

Enterohemorrhagic Escherichia coli (EHEC) is an important food-borne pathogen, which causes a wide spectrum of diseases ranging from hemorrhagic colitis to life-threatening hemolytic uremic syndrome (HUS). Currently, insufficient measures to prevent and treat EHEC infection make a vaccine against EHEC in great demand. EspA (E. coli secreted protein A), intimin, and Stx2 (Shiga toxin 2) are three predominant virulence factors of EHEC, and each of them has proved to be capable of inducing partial protective immunity. In this study, we constructed a trivalent recombinant protein designated EIS that is composed of EspA (E), C-terminal 300 amino acids of intimin (I) and B subunit of Stx2 (S), and tested it as vaccine using a mouse model. Our results showed that immunization of EIS induced strong humoral response to EspA, intimin and Stx2 and protected mice against the challenges with live EHEC or EHEC sonicated lysate. Moreover, it enhanced clearance of intestinally colonized bacteria. This work suggests that for EHEC vaccines using a combination of EspA, intimin and Stx2 antigens appears to be more effective than using any of these immunogens alone.     

Imaging Escherichia coli using functionalized core/shell CdSe/CdS quantum dots

The internalization of a series of water-soluble CdSe/CdS quantum dots (QDs) stabilized by citrate, isocitrate, succinate, and malate by Escherichia coli is established by epifluorescence and confocal fluorescence scanning microscopy, fluorimetry, and UV–vis spectroscopy on whole and lysed bacterial cells. The organic-acid-stabilized QDs span a range in size from 3.8±1.1 to 6.0±2.4 nm with emission wavelengths from 540 to 630 nm. QDs of different sizes (i.e., 3.8–6 nm) can enter the bacterium and be detected on different fluorescence channels with little interference from other QDs as a result of the distinct emission profiles (i.e., 540–630 nm, respectively). Costaining QD-labeled E. coli with 4′,6-diamidino-2-phenylindole dihydrochloride (DAPI) demonstrates that the QDs and DAPI are colocalized within E. coli, whereas costaining QD-labeled E. coli with membrane dye FM4-64 shows that the FM4-64 is localized in the outer bacterial membrane and that the QDs are inside.Electronic Supplementary Material Supplementary material is available to authorized users in the online version of this article at .     

Extracellular production of Streptomyces lividans acetyl xylan esterase A in Escherichia coli for rapid detection of activity

Acetyl xylan esterase A (AxeA) from Streptomyces lividans belongs to a large family of industrially relevant polysaccharide esterases. AxeA and its truncated form containing only the catalytically competent domain, AxeA(tr), catalyze both the deacetylation of xylan and the N-deacetylation of chitosan. This broad substrate specificity lends additional interest to their characterization and production. Here, we report three systems for extracellular production of AxeA(tr): secretion from the native host S. lividans with the native signal peptide, extracellular production in Escherichia coli with the native signal peptide, and in E. coli with the OmpA signal peptide. Over five to seven days of a shake flask culture, the native host S. lividans with the native signal peptide secreted AxeA(tr) into the extracellular medium in high yield (388 mg/L) with specific activity of 19 U/mg corresponding to a total of 7000 U/L. Over one day of shake flask culture, E. coli with the native secretion signal peptide produced 84-fold less in the extracellular medium (4.6 mg/L), but the specific activity was higher (100 U/mg) corresponding to a total of 460 U/L. A similar E. coli culture using the OmpA signal peptide, produced 10mg/L with a specific activity of 68 U/mg, corresponding to a total of 680 U/L. In 96-well microtiter plates, extracellular production with E. coli gave approximately 30 and approximately 86 microg/mL in S. lividans. Expression in S. lividans with the native signal peptide is best for high level production, while expression in E. coli using the OmpA secretion signal peptide is best for high-throughput expression and screening of variants in microtiter plate format.     

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.     

Evidence for Escherichia coli polymerase II mutagenic bypass of intrastrand DNA crosslinks

The mutagenic potentials of DNAs containing site- and stereospecific intrastrand DNA crosslinks were evaluated in Escherichia coli cells that contained a full complement of DNA polymerases or were deficient in either polymerases II, IV, or V. Crosslinks were made between adjacent N(6)-N(6) adenines and consisted of R,R- and S,S-butadiene crosslinks and unfunctionalized 2-, 3-, and 4-carbon tethers. Although replication of single-stranded DNAs containing the unfunctionalized 3- and 4-carbon tethers were non-mutagenic in all strains tested, replication past all the other intrastrand crosslinks was mutagenic in all E. coli strains, except the one deficient in polymerase II in which no mutations were ever detected. However, when mutagenesis was analyzed in cells induced for SOS, mutations were not detected, suggesting a possible change in the overall fidelity of polymerase II under SOS conditions. These data suggest that DNA polymerase II is responsible for the in vivo mutagenic bypass of these lesions in wild-type E. coli.     

影响微生物互作的重要基因研究进展：以大肠杆菌为例

微生物在自然界中广泛存在,微生物间的相互作用对群落结构和功能有重要影响。目前已经对微生物相互作用的机制给予了很大的关注,通过高通量测序技术和统计学分析方法的结合可以定位获得影响菌株互作的重要基因。为了深入研究微生物相互作用的遗传机制,本文以大肠杆菌(Escherichia coli)为例,综述了与大肠杆菌运动性、耐药性、营养物质吸收和代谢调节相关的基因在互作条件下发挥的作用,并从这几个方面分别阐述了大肠杆菌互作遗传机制。总之,这些基因在大肠杆菌与其他微生物互作中发挥重要作用,同时增强了对细菌互作机制的理解,为今后研究更复杂的微生物群落互作遗传机制奠定了理论基础。     

Mechanism of 2-aminopurine-stimulated mutagenesis in Escherichia coli

2-Aminopurine (2AP), a base analog, causes both transition and frameshift mutations in Escherichia coli. The analog is thought to cause mutations by two mechanisms: directly, by mispairing with cytosine, and indirectly, by saturation of mismatch repair (MMR). The goal of this work was to measure the relative contribution of these two mechanisms to the occurrence of transition mutations. Our data suggest that, in contrast to 2-aminopurine-stimulated frameshift mutations, the majority of transition mutations are a direct effect of base mispairing.