苜蓿夜蛾中肠丝氨酸蛋白酶cDNA的克隆、序列分析及原核表达

【目的】本研究旨在从苜蓿夜蛾Heliothis viriplaca中肠克隆出丝氨酸蛋白酶（serine protease, SP）基因的cDNA序列,测定原核表达后的蛋白经纯化及复性后的活性。【方法】运用RT-PCR和cDNA末端快速扩增方法（rapid amplification of cDNA ends, RACE）克隆苜蓿夜蛾幼虫中肠丝氨酸蛋白酶cDNA全序列,用大肠杆菌Escherichia coli表达系统进行表达。重组蛋白经纯化后,利用梯度透析法进行复性,以BApNA为底物,进行活性测定。【结果】克隆获得的苜蓿夜蛾中肠丝氨酸蛋白酶基因命名为HvSP（GenBank登录号：JX866720）,该基因全长880 bp,开放阅读框长762 bp,编码254个氨基酸,推测分子量和pI值分别为26.9 kDa和9.49。由HvSP推导的氨基酸与鳞翅目昆虫SP氨基酸序列的一致性在52%~95%之间,其中与棉铃虫Helicoverpa armigera SP（GenBank登录号：CAA72962）的氨基酸序列一致性最高,达95%。成功构建重组载体pET21b-HvSP进行原核表达,Western-blot鉴定确定为目的蛋白。蛋白可溶性分析发现重组蛋白为包涵体。在Glycine-NaOH缓冲液中,当pH为10.0时,复性的重组蛋白活性达到最高,为35.74 U/mL。【结论】本研究在苜蓿夜蛾体内获得了一个新的丝氨酸蛋白酶基因,且原核表达后的重组蛋白经过变性、纯化及复性后具有活性。该结果为进一步研究丝氨酸蛋白酶在鳞翅目昆虫体内的生理功能奠定了基础。     

东方蜜蜂微孢子虫一新型孢壁蛋白的基因克隆、 表达及亚细胞定位

【目的】微孢子虫(Microsporidia)孢壁在孢子构成及孢子侵染宿主过程中扮演重要的角色。本研究旨在鉴定获得的东方蜜蜂微孢子虫Nosema ceranae新型孢壁蛋白,并进行基因克隆和原核表达,明确其亚细胞定位。【方法】通过在线软件对东方蜜蜂微孢子虫新型孢壁蛋白AAJ76_1400036761序列进行生物信息学分析。利用PCR法获取目的片段并将其克隆至原核表达载体pCold II中,利用IPTG诱导表达重组蛋白并通过镍柱亲和层析法纯化目的蛋白。以获得的重组蛋白为抗原免疫小鼠制备多克隆抗体,通过间接免疫荧光技术和免疫胶体金定位技术对该蛋白进行亚细胞定位分析;利用蛋白质免疫印迹法检测该蛋白与东方蜜蜂微孢子虫几丁质壳的互作。【结果】在MicrosporidiaDB数据库中获得AAJ76_1400036761基因序列,基因全长681 bp,编码226个氨基酸;预测等电点为6.84,分子量为26.19 kD。SDS-PAGE电泳和Western blot结果表明AAJ76_1400036761重组蛋白能够在大肠杆菌Eescherichia coli Rosetta中高量表达。Western blot结果表明,制备的多克隆抗体能够特异地识别东方蜜蜂微孢子虫总蛋白中的AAJ76_1400036761,说明其在成熟东方蜜蜂微孢子虫中有表达。亚细胞定位结果显示,AAJ76_1400036761定位于东方蜜蜂微孢子虫孢壁上。重组蛋白AAJ76_1400036761能够与蜜蜂微孢子虫的几丁质壳结合。【结论】AAJ76_1400036761蛋白在东方蜜蜂微孢子虫成熟孢子中有表达;该蛋白定位于东方蜜蜂微孢子虫孢壁上,为东方蜜蜂微孢子虫新的孢壁蛋白。本研究为深入研究该蛋白的生物学功能奠定了基础。     

Growth-based Determination and Biochemical Confirmation of Genetic Requirements for Protein Degradation in Saccharomyces cerevisiae

Regulated protein degradation is crucial for virtually every cellular function. Much of what is known about the molecular mechanisms and genetic requirements for eukaryotic protein degradation was initially established in Saccharomyces cerevisiae. Classical analyses of protein degradation have relied on biochemical pulse-chase and cycloheximide-chase methodologies. While these techniques provide sensitive means for observing protein degradation, they are laborious, time-consuming, and low-throughput. These approaches are not amenable to rapid or large-scale screening for mutations that prevent protein degradation. Here, a yeast growth-based assay for the facile identification of genetic requirements for protein degradation is described. In this assay, a reporter enzyme required for growth under specific selective conditions is fused to an unstable protein. Cells lacking the endogenous reporter enzyme but expressing the fusion protein can grow under selective conditions only when the fusion protein is stabilized (i.e. when protein degradation is compromised). In the growth assay described here, serial dilutions of wild-type and mutant yeast cells harboring a plasmid encoding a fusion protein are spotted onto selective and non-selective medium. Growth under selective conditions is consistent with degradation impairment by a given mutation. Increased protein abundance should be biochemically confirmed. A method for the rapid extraction of yeast proteins in a form suitable for electrophoresis and western blotting is also demonstrated. A growth-based readout for protein stability, combined with a simple protocol for protein extraction for biochemical analysis, facilitates rapid identification of genetic requirements for protein degradation. These techniques can be adapted to monitor degradation of a variety of short-lived proteins. In the example presented, the His3 enzyme, which is required for histidine biosynthesis, was fused to Deg1-Sec62. Deg1-Sec62 is targeted for degradation after it aberrantly engages the endoplasmic reticulum translocon. Cells harboring Deg1-Sec62-His3 were able to grow under selective conditions when the protein was stabilized.     

Evidence of a novel allergenic protein Narcin in the bulbs of Narcissus tazetta

Several plant-derived allergens have been identified which result in the formation of immunoglobulin E antibodies. Primarily, these allergens belong to the protein families including seed storage proteins, structural proteins and pathogenesis-related proteins. Several allergens are also reported from flower bulbs which cause contact dermatitis. Such symptoms are highly common with the bulb growers handling different species of Narcissus. Narcissus toxicity is also reported if the bulbs are consumed accidentally. The present study aimed to characterize the protein from the bulbs of Narcissus tazetta responsible for its allergenic response. A 13 kDa novel allergenic protein, Narcin was isolated from the bulbs of Narcissus tazetta. The protein was extracted using ammonium sulfate fractionation. The protein was further purified by anion exchange chromatography followed by gel filtration chromatography. The N-terminal sequence of the first 15 amino-acid residues was determined using Edman degradation. The allergenicity of the protein was measured by cytokine production using flow cytometry in peripheral blood mononuclear cells. Further estimation of total IgE was performed by ELISA method. This novel protein was found to induce pro-inflammatory cytokines and thus induce allergy by elevating total IgE level. The novel protein, Narcin isolated from Narcissus tazetta was found to exhibit allergenic properties.     

Single-step affinity purification of recombinant proteins using a self-excising module from Neisseria meningitidis FrpC

Purification of recombinant proteins is often a challenging process involving several chromatographic steps that must be optimized for each target protein. Here, we developed a self-excising module allowing single-step affinity chromatography purification of untagged recombinant proteins. It consists of a 250-residue-long self-processing module of the Neisseria meningitidis FrpC protein with a C-terminal affinity tag. The N terminus of the module is fused to the C terminus of a target protein of interest. Upon binding of the fusion protein to an affinity matrix from cell lysate and washing out contaminating proteins, site-specific cleavage of the Asp-Pro bond linking the target protein to the self-excising module is induced by calcium ions. This results in the release of the target protein with only a single aspartic acid residue added at the C terminus, while the self-excising affinity module remains trapped on the affinity matrix. The system was successfully tested with several target proteins, including glutathione-S-transferase, maltose-binding protein, beta-galactosidase, chloramphenicol acetyltransferase, and adenylate cyclase, and two different affinity tags, chitin-binding domain or poly-His. Moreover, it was demonstrated that it can be applied as an alternative to two currently existing systems, based on the self-splicing intein of Saccharomyces cerevisiae and sortase A of Staphylococcus aureus.     

SNF1-related protein kinases 2 are negatively regulated by a plant-specific calcium sensor

SNF1-related protein kinases 2 (SnRK2s) are plant-specific enzymes involved in environmental stress signaling and abscisic acid-regulated plant development. Here, we report that SnRK2s interact with and are regulated by a plant-specific calcium-binding protein. We screened a Nicotiana plumbaginifolia Matchmaker cDNA library for proteins interacting with Nicotiana tabacum osmotic stress-activated protein kinase (NtOSAK), a member of the SnRK2 family. A putative EF-hand calcium-binding protein was identified as a molecular partner of NtOSAK. To determine whether the identified protein interacts only with NtOSAK or with other SnRK2s as well, we studied the interaction of an Arabidopsis thaliana orthologue of the calcium-binding protein with selected Arabidopsis SnRK2s using a two-hybrid system. All kinases studied interacted with the protein. The interactions were confirmed by bimolecular fluorescence complementation assay, indicating that the binding occurs in planta, exclusively in the cytoplasm. Calcium binding properties of the protein were analyzed by fluorescence spectroscopy using Tb(3+) as a spectroscopic probe. The calcium binding constant, determined by the protein fluorescence titration, was 2.5 ± 0.9 × 10(5) M(-1). The CD spectrum indicated that the secondary structure of the protein changes significantly in the presence of calcium, suggesting its possible function as a calcium sensor in plant cells. In vitro studies revealed that the activity of SnRK2 kinases analyzed is inhibited in a calcium-dependent manner by the identified calcium sensor, which we named SCS (SnRK2-interacting calcium sensor). Our results suggest that SCS is involved in response to abscisic acid during seed germination most probably by negative regulation of SnRK2s activity.     

鼠冠状病毒核衣壳蛋白电荷非均一性与其磷酸化的相关性

核衣壳(nucleocapsid, N)蛋白是病毒必不可少的结构蛋白,具有保护病毒基因组和调控病毒复制进程的重要作用。作为冠状病毒的经典模型,鼠肝炎病毒(mouse hepatitis virus, MHV) N蛋白的磷酸化调控病毒RNA复制转录和装配已有报道。本研究发现MHV-A59感染鼠neuro-2a细胞后期表达的N蛋白呈现明显的电荷不均一性,其中只有小部分发生磷酸化并被装配至病毒颗粒中;等电聚焦电泳显示N蛋白的电荷呈连续分布。用蛋白脂酰化抑制剂2-溴棕榈酸(2-BP)和蛋白酶体抑制剂MG-132处理后显示病毒复制水平不但与N蛋白电负性相关,而且与细胞的PKCα S657磷酸化和内质网蛋白水平相关。结果提示磷酸化修饰与鼠冠状病毒N蛋白电荷不均一性及稳定性密切相关。     

绵羊肌球蛋白轻链2基因的分子克隆与表达分析

肌球蛋白轻链2蛋白是哺乳动物肌球蛋白的重要成员之一。获得其基因序列,并对其特征和表达进行分析,可为进一步研究功能奠定基础。本研究以小尾寒羊背最长肌为试验材料,采用RACE等方法对绵羊肌球蛋白轻链2基因的cDNA序列进行克隆和测序、利用相关生物学软件对所得cDNA序列进行生物信息学预测、并利用qRT-PCR和Western印迹法对其在绵羊各种组织中的表达进行分析。结果获得该基因cDNA序列全长为776 bp,提交至GenBank中获得相应的登录号为KJ710702;该序列中的498 bp的开放读码框编码含有166个氨基酸残基的蛋白质。预测发现该蛋白质无信号肽和二硫键,但存在N-糖基化和磷酸化位点;二级结构中以α-螺旋为主;蛋白质序列比较发现绵羊MYL2与小鼠、人、大鼠、猪、牛等哺乳动物的同源性均在95%以上。mRNA和蛋白质表达谱均显示该基因在绵羊心肌中表达量最高,其次为背最长肌。     

Using Caenorhabditis elegans as a Model System to Study Protein Homeostasis in a Multicellular Organism

The folding and assembly of proteins is essential for protein function, the long-term health of the cell, and longevity of the organism. Historically, the function and regulation of protein folding was studied in vitro, in isolated tissue culture cells and in unicellular organisms. Recent studies have uncovered links between protein homeostasis (proteostasis), metabolism, development, aging, and temperature-sensing. These findings have led to the development of new tools for monitoring protein folding in the model metazoan organism Caenorhabditis elegans. In our laboratory, we combine behavioral assays, imaging and biochemical approaches using temperature-sensitive or naturally occurring metastable proteins as sensors of the folding environment to monitor protein misfolding. Behavioral assays that are associated with the misfolding of a specific protein provide a simple and powerful readout for protein folding, allowing for the fast screening of genes and conditions that modulate folding. Likewise, such misfolding can be associated with protein mislocalization in the cell. Monitoring protein localization can, therefore, highlight changes in cellular folding capacity occurring in different tissues, at various stages of development and in the face of changing conditions. Finally, using biochemical tools ex vivo, we can directly monitor protein stability and conformation. Thus, by combining behavioral assays, imaging and biochemical techniques, we are able to monitor protein misfolding at the resolution of the organism, the cell, and the protein, respectively.     

Computational protein structure modeling and analysis of UV-B stress protein in Synechocystis PCC 6803

This study focuses on Ultra Violet stress (UVS) gene product which is a UV stress induced protein from cyanobacteria, Synechocystis PCC 6803. Three dimensional structural modeling of target UVS protein was carried out by homology modeling method. 3F2I pdb from Nostoc sp. PCC 7120 was selected as a suitable template protein structure. Ultimately, the detection of active binding regions was carried out for characterization of functional sites in modeled UV-B stress protein. The top five probable ligand binding sites were predicted and the common binding residues between target and template protein was analyzed. It has been validated for the first time that modeled UVS protein structure from Synechocystis PCC 6803 was structurally and functionally similar to well characterized UVS protein of another cyanobacterial species, Nostoc sp PCC 7120 because of having same structural motif and fold with similar protein topology and function. Investigations revealed that UVS protein from Synechocystis sp. might play significant role during ultraviolet resistance. Thus, it could be a potential biological source for remediation for UV induced stress.     

Protein kinases in human renal cell carcinoma and renal cortex. A comparison of isozyme distribution and of responsiveness to adenosine 3':5'-cyclic monophosphate.

Two major isozyme forms of cyclic AMP-dependent protein kinase (termed protein kinase I and II according to their order of elution from DEAE-cellulose) were resolved by DEAE-cellulose chromatography of extracts from human renal cortex and renal cell carcinoma. The ratio between protein kinase I and protein kinase II in carcinoma extracts was about twice that in extracts of renal cortex. The total soluble cyclic AMP-dependent protein kinase activity was similar in extracts from the normal and malignant tissue. Protein kinase isozymes prepared from renal cortex or carcinoma were highly dependent on cyclic AMP for activity under appropriate assay conditions, were activated to the same degree by various concentrations of cyclic AMP, and had similar affinity for the nucleotide, indicating that the mechanism for regulation of protein kinase activity by cyclic AMP was intact for the tumor kinases. The kinetics of endogenous phosphorylation of protein kinase II was similar for enzyme derived from normal or malignant tissue.     

Enhancement of endothelial cell migration and in vitro tube formation by TAP20, a novel beta 5 integrin-modulating, PKC theta-dependent protein

Migration, proliferation, and tube formation of endothelial cells are regulated by a protein kinase C isoenzyme PKCtheta. A full-length cDNA encoding a novel 20-kD protein, whose expression was PKCtheta-dependent, was identified in endothelial cells, cloned, characterized, and designated as theta-associated protein (TAP) 20. Overexpression of TAP20 decreased cell adhesion and enhanced migration on vitronectin and tube formation in three-dimensional culture. An antiintegrin alphavbeta5 antibody prevented these TAP20 effects. Overexpression of TAP20 also decreased focal adhesion formation in alphavbeta3-deficient cells. The interaction between TAP20 and beta5 integrin cytoplasmic domain was demonstrated by protein coprecipitation and immunoblotting. Thus, the discovery of TAP20, which interacts with integrin beta5 and modulates cell adhesion, migration, and tube formation, further defines a possible pathway to angiogenesis dependent on PKCtheta.     

A de novo designed protein protein interface

As an approach to both explore the physical/chemical parameters that drive molecular self-assembly and to generate novel protein oligomers, we have developed a procedure to generate protein dimers from monomeric proteins using computational protein docking and amino acid sequence design. A fast Fourier transform-based docking algorithm was used to generate a model for a dimeric version of the 56-amino-acid beta1 domain of streptococcal protein G. Computational amino acid sequence design of 24 residues at the dimer interface resulted in a heterodimer comprised of 12-fold and eightfold variants of the wild-type protein. The designed proteins were expressed, purified, and characterized using analytical ultracentrifugation and heteronuclear NMR techniques. Although the measured dissociation constant was modest ( approximately 300 microM), 2D-[(1)H,(15)N]-HSQC NMR spectra of one of the designed proteins in the absence and presence of its binding partner showed clear evidence of specific dimer formation.     

A previously found thylakoid membrane protein of 14kDa (TMP14) is a novel subunit of plant photosystem I and is designated PSI-P

We show that the thylakoid membrane phosphoprotein TMP14 is a novel subunit of plant photosystem I (PSI). Blue native/SDS-PAGE and sucrose gradient fractionation demonstrated the association of the protein exclusively with PSI. We designate the protein PSI-P. The presence of PSI-P subunit in Arabidopsis mutants lacking other PSI subunits was analyzed and suggested a location in the proximity of PSI-L, -H and -O subunits. The PSI-P protein was not differentially phosphorylated in state 1 and state 2.     

Aven is dynamically regulated during Xenopus oocyte maturation and is required for oocyte survival

We have analyzed the expression and function of the cell death and cell cycle regulator Aven in Xenopus. Analysis of Xenopus Aven expression in oocytes and embryos revealed a band close to the predicted molecular weight of the protein (36 kDa) in addition to two bands of higher molecular weight (46 and 49 kDa), one of which was determined to be due to phosphorylation of the protein. The protein is primarily detected in the cytoplasm of oocytes and is tightly regulated during meiotic and mitotic cell cycles. Progesterone stimulation of oocytes resulted in a rapid loss of Aven expression with the protein levels recovering before germinal vesicle breakdown (GVBD). This loss of Aven is required for the G2–M1 cell cycle transition. Aven morpholino knockdown experiments revealed that early depletion of the protein increases progesterone sensitivity and facilitates GVBD, but prolonged depletion of Aven results in caspase-3 activation and oocyte death by apoptosis. Phosphorylated Aven (46 kDa) was found to bind Bcl-x_L in oocytes, but this interaction was lost in apoptotic oocytes. Thus, Aven alters progesterone sensitivity in oocytes and is critical for oocyte survival.     

Hsp65与IL-2融合蛋白诱导小鼠细胞免疫应答及保护力

目的研究Hsp65与hIL-2的融合蛋白在小鼠体内诱导的免疫应答及保护力。方法在大肠杆菌中诱导表达Hsp65与hIL-2的融合蛋白,通过Ni-NTA亲合柱纯化后的蛋白经鉴定后,与佐剂DDA和MPL联合免疫小鼠,连续免疫3次,每次间隔2周,最后一次免疫结束后两周,分离5只小鼠脾淋巴细胞,测定淋巴细胞增殖指数,IFN-γ和IL-2水平,以及特异性淋巴细胞杀伤功能,其余5只免疫小鼠用于MTB毒株攻击实验。结果获得融合蛋白可分别与抗Hsp65和抗hIL-2的单抗发生特异性反应。融合蛋白免疫小鼠后,小鼠脾淋巴细胞被有效活化,诱导产生的-γIFN和IL-2的水平以及CTL杀伤功能均显著高于BCG和单纯Hsp65免疫组（P〈0.05）。融合蛋白免疫组可有效抵抗MTB毒株攻击,脾脏细菌数显著减少（4.36±0.48）,提供的保护力与BCG相当（4.30±0.53）。结论Hsp65与hIL-2的融合蛋白是一种有效的亚单位疫苗,可用于TB的预防。     

Isolation of a novel rat testicular metalloprotein binding cadmium and zinc

Various testicular metal-binding proteins having apparent mol wt in the range of 10–30 kD have been demonstrated by gel filtration of¹⁰⁹Cd- or⁶⁵Zn-labeled cytosol, but in no case has a purified metalloprotein been isolated that contains stoichiometric amounts of the metal. The purpose of this work was to purify from rat testes a testes-specific 30 kD Cd-binding protein (Cd-testin) following in vitro addition of¹⁰⁹Cd to testis cytosol. Conventional purification methods similar to those used for purification of metallothionein could not be used because Cd was not retained in stoichiometric amounts by the 30 kD species when these methods were employed. However, using ammonium sulfate fractionation, hydrophobic interaction and gel filtration chromatography, a 30 kD protein containing 2.6 mol of Cd/ mol of protein was isolated. Two-dimensional sodium dodecyl sulfate polyacrylamide gel electrophoresis demonstrated that the isolated protein contained one major polypeptide with a mol mass of 22 kD and a pI of 4.6 (22 kD/pI 4.6) and two minor polypeptides (16 kD/pI 4.6 and 10±4 kD/pI 6.3) Two-dimensional gel electrophoresis demonstrated that the 22 kD species is a major low mol mass (<60 kD) protein in rat testic cytosol. The 22 kD protein was not detectable in cytosol of rooster testis, a tissue that is insensitive to Cd-induced damage and devoid of the 30 kD Cd-binding protein. Gel filtration and hydrophobic interaction chromatography of¹⁰⁹Cd- and⁶⁵Zn-labeled cytosol demonstrated that¹⁰⁹Cd and⁶⁵Zn cochromatography with the 30 kD protein. The function of this novel 30 kD testicular metal-binding protein is not known, but our work and other studies suggest that its occurrence in testes is linked to the production of a unique 22 kD polypeptide.     

Abberent expression analysis of LMNA gene in hutchinson-gilford progeria syndrome

Hutchinson-Gilford progeria syndrome (HGPS) is caused by de novo dominant point mutations of the genes encoding nuclear lamina proteins, leading towards premature aging. A protein sequence is subjected to mutations in nature which can affect the function and folding pattern of the protein by different ways. Mutations involved in HGPS were identified and were substituted in the seed sequence retrieved from the UniProt database to get the mutated versions. Tertiary structure of the Lamin A protein was previously unpredicted so was performed for all the mutated as well as for the seed protein to analyze the effects of mutations on the protein structure, folding and interactions. All the predicted models were refined and validated through multiple servers for multiple parameters. The validated 3D structure of seed protein was then successfully submitted to the Protein Model Database and was assigned with the PMDB ID PM0077829. All the predicted structures were superimposed with a root mean square deviation value of 7.0 Å and a high Dali Z-score of 1.9. It was observed that mutations affected physiochemical properties as well as instability index and thus is affecting the domains in specific and the whole structure in general. It was further analyzed that HGPS is the result of affected Lamin a protein interactions with other integral and binding proteins in the inner nuclear membrane affecting the link in between the nuclear membrane and the network of the lamina.     

Involvement of interaction between viral VP466 and host tropomyosin proteins in virus infection in shrimp

The accumulating evidence indicates that the viral structural proteins play critical roles in virus infection. However, the interaction between the viral structural protein and host cytoskeleton protein in virus infection remains to be addressed. In this study, the viral VP466 protein, one of the major structural proteins of shrimp white spot syndrome virus (WSSV), was characterized. The results showed that the suppression of VP466 gene expression led to the inhibition of WSSV infection in shrimp, indicating that the VP466 protein was required in virus invasion. It was found that the VP466 protein was interacted with the host cytoskeleton protein tropomyosin. As documented, the VP466–tropomyosin interaction facilitated the WSSV infection. Therefore our findings revealed a novel molecular mechanism in the virus invasion to its host, which would be helpful to better understand the molecular events in virus infection in invertebrate.     

UTH1基因破坏提高重组酿酒酵母分泌β-葡萄糖苷酶

异源蛋白质分泌效率低限制了重组酿酒酵母的多种药用蛋白和工业酶生产。挖掘促进蛋白质生物合成和分泌的关键基因,是提高异源蛋白质生产效率的重要手段。酿酒酵母细胞壁完整性影响异源蛋白质分泌,本研究利用基于CRISPR/Cas9的基因组编辑技术,破坏了重组酿酒酵母Y294-BGL1中参与细胞壁合成的未知功能基因UTH1,发现所获得的突变体胞外β-葡萄糖苷酶酶活比出发菌株提高112.9%,而细胞壁完整性下降。对促进产酶的分子机理进行探索,发现突变体产酶条件下与细胞壁完整性相关的关键基因和与蛋白质分泌途径相关的基因转录出现明显差异,提示UTH1基因破坏不仅影响细胞壁完整性关键基因的表达,也影响蛋白质分泌途径。本文的研究结果有助于深入理解UTH1的基因功能,并为构建异源蛋白质高分泌酵母菌株提供了借鉴。