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951.
Virus-specific RNA sequences were detected in mouse cells infected with murine leukemia virus by hybridization with radioactively labeled DNA complementary to Moloney murine leukemia virus RNA. The DNA was synthesized in vitro using the endogenous virion RNA-dependent DNA polymerase and the DNA product was characterized by size and its ability to protect radioactive viral RNA. Virus-specific RNA sequences were found in two lines of leukemia virus-infected cells (JLS-V11 and SCRF 60A) and also in an uninfected line (JLS-V9). Approximately 0.3% of the cytoplasmic RNA in JLS-VII cells was virus-specific and 0.9% of SCRF 60A cell RNA was virus-specific. JLS-V9 cells contained approximately tenfold less virus-specific RNA than infected JLS-VII cells. Moloney leukemia virus DNA completely annealed to JLS-VII or SCRF 60A RNA but only partial annealing was observed with JLS-V9 RNA. This difference is ascribed to non-homologies between the RNA sequences of Moloney virus and the endogenous virus of JLS-V9 cells.Virus-specific RNA was found to exist in infected cells in three major size classes: 60–70 S RNA, 35 S RNA and 20–30 S RNA. The 60–70 S RNA was apparently primarily at the cell surface, since agents which remove material from the cell surface were effective in removing a majority of the 60–70 S RNA. The 35 S and 20–30 S RNA is relatively unaffected by these procedures. Sub-fractionation of the cytoplasm indicated that approximately 35% of the cytoplasmic virus-specific RNA in infected cells is contained in the membrane-bound material. The membrane-bound virus-specific RNA consists of some residual 60–70 S RNA and 35 S RNA, but very little 20–30 S RNA. Virus-specific messenger RNA was identified in polyribosome gradients of infected cell cytoplasm. Messenger RNA was differentiated from other virus-specific RNAs by the criterion that virus-specific messenger RNA must change in sedimentation rate following polyribosome disaggregation. Two procedures for polyribosome disaggregation were used: treatment with EDTA and in vitro incubation of polyribosomes with puromycin in conditions of high ionic strength. As identified by this criterion, the virus-specific messenger RNA appeared to be mostly 35 S RNA. No function for the 20–30 S was determined. 相似文献
952.
吡咯喹啉醌(pyrroloquinoline quinone, PQQ)是继烟酰胺和核黄素之后发现的第三类氧化还原酶辅因子,普遍存在于生物体中参与呼吸链电子传递,具有促进线粒体产生、清除自由基、增强细胞代谢和预防心肌损伤等生理功能,在医药、食品和农业领域具有广泛的应用前景。微生物发酵法是PQQ生产的主要方式,解析PQQ生物合成途径及其调控机制,通过代谢工程选育短周期、高产量的生产菌是PQQ工业化的研究方向之一。本文综述了PQQ的合成途径、高产菌株选育以及微生物发酵生产与分离纯化的研发工作,为深入阐释PQQ的生物合成机制和工业化生产菌株的选育提供参考。 相似文献
953.
【目的】分析洛伐他汀工业生产菌株土曲霉HZ01的次级代谢产物合成能力,为后期的遗传改造、次级代谢产物及其基因簇挖掘提供指导。【方法】对洛伐他汀发酵条件下的样品进行了转录组分析,同时运用色谱分离技术及波谱学方法对主要次级代谢产物进行了分离和结构鉴定。【结果】洛伐他汀合成相关基因转录水平非常高,还有4个聚酮合酶(PKS)、6个非核糖体多肽合成酶(NRPS)和1个PKS-NRPS杂合酶基因进行了转录,其他PKS和NRPS基因都处于沉默状态。此外,从该菌的发酵产物中分离鉴定了10个主要副产物并确定了其结构。【结论】土曲霉HZ01是一株优良的洛伐他汀生产菌株,在构建次级代谢产物异源合成细胞工厂和鉴定次级代谢产物生物合成途径方面具有很好的应用潜力。 相似文献
954.
F.-Nora Vögtle Björn Brändl Austin Larson Manuela Pendziwiat Marisa W. Friederich Susan M. White Alice Basinger Cansu Kücükköse Hiltrud Muhle Johanna A. Jähn Oliver Keminer Katherine L. Helbig Carolyn F. Delto Lisa Myketin Dirk Mossmann Nils Burger Noriko Miyake Audrey Burnett Ingo Helbig 《American journal of human genetics》2018,102(4):557-573
955.
【目的】研究可降解成年泌乳奶牛粪中主要酸臭物的微生物群落的组成及动态变化。【方法】利用牛粪堆肥环境中的微生物进行了发酵优化、菌种驯化以及酸臭有机物降解规律的研究,结合r DNA高通量测序技术对有益微生物的组成及相对生物量进行了分析。【结果】实验发现,奶牛排泄物中的臭味来源主要为短链有机酸,堆肥自然环境中的微生物可以有效地对有机酸等污染物进行去除,经从低到高浓度的有机酸臭物(W/V,0.1%–0.2%)驯化发酵后,培养物中原核微生物以芽孢杆菌居多,而真核微生物主要由红曲霉及粉状毕赤酵母组成。【结论】进一步推测这几种微生物是耐受并降解有机酸臭物的优势微生物,可以应用于奶牛养殖过程中酸臭排泄物的生物控制。 相似文献
956.
Amandine Maréchal Andrew M. Hartley Thomas P. Warelow Brigitte Meunier Peter R. Rich 《BBA》2018,1859(9):705-711
Redox and CO photolysis FTIR spectra of yeast cytochrome c oxidase WT and mutants are compared to those from bovine and P. denitrificans CcOs in order to establish common functional features. All display changes that can be assigned to their E242 (bovine numbering) equivalent and to weakly H-bonded water molecules. The additional redox-sensitive band reported at 1736?cm?1 in bovine CcO and previously assigned to D51 is absent from yeast CcO and couldn't be restored by introduction of a D residue at the equivalent position of the yeast protein. Redox spectra of yeast CcO also show much smaller changes in the amide I region, which may relate to structural differences in the region around D51 and the subunit I/II interface. 相似文献
957.
High amplitude and low frequency cyclic mechanical strain promotes degeneration of human nucleus pulposus cells via the NF‐κB p65 pathway 下载免费PDF全文
958.
Marc Potempa Sook-Kyung Lee Nese Kurt Yilmaz Ellen A. Nalivaika Amy Rogers Ean Spielvogel Charles W. Carter Celia A. Schiffer Ronald Swanstrom 《Journal of molecular biology》2018,430(24):5182-5195
Retroviral proteases (PRs) have a unique specificity that allows cleavage of sites with or without a P1′ proline. A P1′ proline is required at the MA/CA cleavage site due to its role in a post-cleavage conformational change in the capsid protein. However, the HIV-1 PR prefers to have large hydrophobic amino acids flanking the scissile bond, suggesting that PR recognizes two different classes of substrate sequences. We analyzed the cleavage rate of over 150 combinations of six different HIV-1 cleavage sites to explore rate determinants of cleavage. We found that cleavage rates are strongly influenced by the two amino acids flanking the amino acids at the scissile bond (P2–P1/P1′–P2′), with two complementary sets of rules. When P1′ is proline, the P2 side chain interacts with a polar region in the S2 subsite of the PR, while the P2′ amino acid interacts with a hydrophobic region of the S2′ subsite. When P1′ is not proline, the orientations of the P2 and P2′ side chains with respect to the scissile bond are reversed; P2 residues interact with a hydrophobic face of the S2 subsite, while the P2′ amino acid usually engages hydrophilic amino acids in the S2′ subsite. These results reveal that the HIV-1 PR has evolved bi-functional S2 and S2′ subsites to accommodate the steric effects imposed by a P1′ proline on the orientation of P2 and P2′ substrate side chains. These results also suggest a new strategy for inhibitor design to engage the multiple specificities in these subsites. 相似文献
959.
Different fermentation strategies by Schizochytrium mangrovei strain pq6 to produce feedstock for exploitation of squalene and omega‐3 fatty acids 下载免费PDF全文
Thom Thi Le Thi Huong Quynh Hoang Van Nhat Pham Minh Hien Thi Hoang Hoai Thu Thi Ngo Dang Diem Hong 《Journal of phycology》2018,54(4):550-556
Schizochytrium mangrovei strain PQ 6 was investigated for coproduction of docosahexaenoic acid (C22: 6ω‐3, DHA ) and squalene using a 30‐L bioreactor with a working volume of 15 L under various batch and fed‐batch fermentation process regimes. The fed‐batch process was a more efficient cultivation strategy for achieving higher biomass production rich in DHA and squalene. The final biomass, total lipid, unsaponifiable lipid content, and DHA productivity were 105.25 g · L?1, 43.40% of dry cell weight, 8.58% total lipid, and 61.66 mg · g?1 · L?1, respectively, after a 96 h fed‐batch fermentation. The squalene content was highest at 48 h after feeding glucose (98.07 mg · g?1 of lipid). Differences in lipid accumulation during fermentation were correlated with changes in ultrastructure using transmission electron microscopy and Nile Red staining of cells. The results may be of relevance to industrial‐scale coproduction of DHA and squalene in heterotrophic marine microalgae such as Schizochytrium . 相似文献
960.
Structure of a putative ClpS N‐end rule adaptor protein from the malaria pathogen Plasmodium falciparum 下载免费PDF全文
Christina L. Vizcarra Duilio Cascio Pascal F. Egea 《Protein science : a publication of the Protein Society》2016,25(3):689-701
The N‐end rule pathway uses an evolutionarily conserved mechanism in bacteria and eukaryotes that marks proteins for degradation by ATP‐dependent chaperones and proteases such as the Clp chaperones and proteases. Specific N‐terminal amino acids (N‐degrons) are sufficient to target substrates for degradation. In bacteria, the ClpS adaptor binds and delivers N‐end rule substrates for their degradation upon association with the ClpA/P chaperone/protease. Here, we report the first crystal structure, solved at 2.7 Å resolution, of a eukaryotic homolog of bacterial ClpS from the malaria apicomplexan parasite Plasmodium falciparum (Pfal). Despite limited sequence identity, Plasmodium ClpS is very similar to bacterial ClpS. Akin to its bacterial orthologs, plasmodial ClpS harbors a preformed hydrophobic pocket whose geometry and chemical properties are compatible with the binding of N‐degrons. However, while the N‐degron binding pocket in bacterial ClpS structures is open and accessible, the corresponding pocket in Plasmodium ClpS is occluded by a conserved surface loop that acts as a latch. Despite the closed conformation observed in the crystal, we show that, in solution, Pfal‐ClpS binds and discriminates peptides mimicking bona fide N‐end rule substrates. The presence of an apicoplast targeting peptide suggests that Pfal‐ClpS localizes to this plastid‐like organelle characteristic of all Apicomplexa and hosting most of its Clp machinery. By analogy with the related ClpS1 from plant chloroplasts and cyanobacteria, Plasmodium ClpS likely functions in association with ClpC in the apicoplast. Our findings open new venues for the design of novel anti‐malarial drugs aimed at disrupting parasite‐specific protein quality control pathways. 相似文献