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861.
Guofen Gao Lindsay Wieczorek Kristina K. Peachman Victoria R. Polonis Carl R. Alving Mangala Rao Venigalla B. Rao 《The Journal of biological chemistry》2013,288(1):234-246
The HIV-1 envelope spike is a trimer of heterodimers composed of an external glycoprotein gp120 and a transmembrane glycoprotein gp41. gp120 initiates virus entry by binding to host receptors, whereas gp41 mediates fusion between viral and host membranes. Although the basic pathway of HIV-1 entry has been extensively studied, the detailed mechanism is still poorly understood. Design of gp41 recombinants that mimic key intermediates is essential to elucidate the mechanism as well as to develop potent therapeutics and vaccines. Here, using molecular genetics and biochemical approaches, a series of hypotheses was tested to overcome the extreme hydrophobicity of HIV-1 gp41 and design a soluble near full-length gp41 trimer. The two long heptad repeat helices HR1 and HR2 of gp41 ectodomain were mutated to disrupt intramolecular HR1-HR2 interactions but not intermolecular HR1-HR1 interactions. This resulted in reduced aggregation and improved solubility. Attachment of a 27-amino acid foldon at the C terminus and slow refolding channeled gp41 into trimers. The trimers appear to be stabilized in a prehairpin-like structure, as evident from binding of a HR2 peptide to exposed HR1 grooves, lack of binding to hexa-helical bundle-specific NC-1 mAb, and inhibition of virus neutralization by broadly neutralizing antibodies 2F5 and 4E10. Fusion to T4 small outer capsid protein, Soc, allowed display of gp41 trimers on the phage nanoparticle. These approaches for the first time led to the design of a soluble gp41 trimer containing both the fusion peptide and the cytoplasmic domain, providing insights into the mechanism of entry and development of gp41-based HIV-1 vaccines. 相似文献
862.
Heng Zhang Heng Zhang Zeng-Qiang Gao Wen-Jia Wang Guang-Feng Liu Jian-Hua Xu Xiao-Dong Su Yu-Hui Dong 《The Journal of biological chemistry》2013,288(8):5928-5939
The type VI secretion system (T6SS), a multisubunit needle-like apparatus, has recently
been found to play a role in interspecies interactions. The Gram-negative bacteria
harboring T6SS (donor) deliver the effectors into their neighboring cells (recipient) to
kill them. Meanwhile, the cognate immunity proteins were employed to protect the donor
cells against the toxic effectors. Tae4 (type VI
amidase effector 4) and Tai4
(type VI amidase
immunity 4) are newly identified T6SS effector-immunity pairs.
Here, we report the crystal structures of Tae4 from Enterobacter cloacae
and Tae4-Tai4 complexes from both E. cloacae and Salmonella
typhimurium. Tae4 acts as a dl-endopeptidase and displays a typical
N1pC/P60 domain. Unlike Tsi1 (type VI
secretion immunity 1), Tai4 is an
all-helical protein and forms a dimer in solution. The small angle x-ray scattering study
combined with the analytical ultracentrifugation reveal that the Tae4-Tai4 complex is a
compact heterotetramer that consists of a Tai4 dimer and two Tae4 molecules in solution.
Structure-based mutational analysis of the Tae4-Tai4 interface shows that a helix
(α3) of one subunit in dimeric Tai4 plays a major role in binding of Tae4, whereas
a protruding loop (L4) in the other subunit is mainly responsible for inhibiting Tae4
activity. The inhibition process requires collaboration between the Tai4 dimer. These
results reveal a novel and unique inhibition mechanism in effector-immunity pairs and
suggest a new strategy to develop antipathogen drugs. 相似文献
863.
Zhao Shan Qinglin Han Jia Nie Xuezhi Cao Zuojia Chen Shuying Yin Yayi Gao Fang Lin Xiaohui Zhou Ke Xu Huimin Fan Zhikang Qian Bing Sun Jin Zhong Bin Li Andy Tsun 《The Journal of biological chemistry》2013,288(49):35093-35103
Although lysine methylation is classically known to regulate histone function, its role in modulating antiviral restriction factor activity remains uncharacterized. Interferon-induced transmembrane protein 3 (IFITM3) was found monomethylated on its lysine 88 residue (IFITM3-K88me1) to reduce its antiviral activity, mediated by the lysine methyltransferase SET7. Vesicular stomatitis virus and influenza A virus infection increased IFITM3-K88me1 levels by promoting the interaction between IFITM3 and SET7, suggesting that this pathway could be hijacked to support infection; conversely, IFN-α reduced IFITM3-K88me1 levels. These findings may have important implications in the design of therapeutics targeting protein methylation against infectious diseases. 相似文献
864.
865.
Huan Yan Bo Peng Wenhui He Guocai Zhong Yonghe Qi Bijie Ren Zhenchao Gao Zhiyi Jing Mei Song Guangwei Xu Jianhua Sui Wenhui Li 《Journal of virology》2013,87(14):7977-7991
Human hepatitis B virus (HBV) and its satellite virus, hepatitis D virus (HDV), primarily infect humans, chimpanzees, or tree shrews (Tupaia belangeri). Viral infections in other species are known to be mainly restricted at the entry level since viral replication can be achieved in the cells by transfection of the viral genome. Sodium taurocholate cotransporting polypeptide (NTCP) is a functional receptor for HBV and HDV, and amino acids 157 to 165 of NTCP are critical for viral entry and likely limit viral infection of macaques. However, the molecular determinants for viral entry restriction in mouse NTCP (mNTCP) remain unclear. In this study, mNTCP was found to be unable to support either HBV or HDV infection, although it can bind to pre-S1 of HBV L protein and is functional in transporting substrate taurocholate; comprehensive swapping and point mutations of human NTCP (hNTCP) and mNTCP revealed molecular determinants restricting mNTCP for viral entry of HBV and HDV. Remarkably, when mNTCP residues 84 to 87 were substituted by human counterparts, mNTCP can effectively support viral infections. In addition, a number of cell lines, regardless of their species or tissue origin, supported HDV infection when transfected with hNTCP or mNTCP with residues 84 to 87 replaced by human counterparts, highlighting the central role of NTCP for viral infections mediated by HBV envelope proteins. These studies advance our understanding of NTCP-mediated viral entry of HBV and HDV and have important implications for developing the mouse model for their infections. 相似文献
866.
867.
Na Wu Xi Yang Ruifen Zhang Jun Li Xue Xiao Yongfei Hu Yanfei Chen Fengling Yang Na Lu Zhiyun Wang Chunguang Luan Yulan Liu Baohong Wang Charlie Xiang Yuezhu Wang Fangqing Zhao George F. Gao Shengyue Wang Lanjuan Li Haizeng Zhang Baoli Zhu 《Microbial ecology》2013,66(2):462-470
The human gut microbiota is a complex system that is essential to the health of the host. Increasing evidence suggests that the gut microbiota may play an important role in the pathogenesis of colorectal cancer (CRC). In this study, we used pyrosequencing of the 16S rRNA gene V3 region to characterize the fecal microbiota of 19 patients with CRC and 20 healthy control subjects. The results revealed striking differences in fecal microbial population patterns between these two groups. Partial least-squares discriminant analysis showed that 17 phylotypes closely related to Bacteroides were enriched in the gut microbiota of CRC patients, whereas nine operational taxonomic units, represented by the butyrate-producing genera Faecalibacterium and Roseburia, were significantly less abundant. A positive correlation was observed between the abundance of Bacteroides species and CRC disease status (R?=?0.462, P?=?0.046?<?0.5). In addition, 16 genera were significantly more abundant in CRC samples than in controls, including potentially pathogenic Fusobacterium and Campylobacter species at genus level. The dysbiosis of fecal microbiota, characterized by the enrichment of potential pathogens and the decrease in butyrate-producing members, may therefore represent a specific microbial signature of CRC. A greater understanding of the dynamics of the fecal microbiota may assist in the development of novel fecal microbiome-related diagnostic tools for CRC. 相似文献
868.
869.
Abscisic acid is required for somatic embryo initiation through mediating spatial auxin response in Arabidopsis 总被引:1,自引:0,他引:1
Abscisic acid (ABA) regulates many aspects of plant development, including somatic embryo (SE) initiation. However, mechanisms of ABA functions on SE initiation have remained to be investigated. In this study, we examined the endogenous ABA contents of calli in Arabidopsis during the SE inductive process. We further found that the capacity for SE initiation was strongly impaired by treatment of fluridone, a potent inhibitor of ABA biosynthesis, as well as by mutation of ABA biosynthetic gene ABA2, suggesting that ABA is required for SE initiation. Furthermore, treatment of fluridone inhibited local auxin biosynthesis and auxin polar transport in the embryonic calli, resulting in the disturbance of auxin response pattern and the decreased regeneration frequency of SEs. However, application of exogenous ABA in the medium almost recovered patterns of auxin response and SE initiation. Thus, the results suggest that ABA functions on SE initiation through mediating both auxin biosynthesis and polar transport for establishment of auxin response pattern in callus. Our study provides new information for understanding mechanisms of SE initiation. 相似文献
870.
L. Xie Z. H. Wang X. H. Cheng J. J. Gao Z. P. Zhang L. J. Wang 《Plant Growth Regulation》2013,69(3):295-303
5-Aminolevulinic acid (ALA) is an essential precursor of all tetrapyrrole compounds such as chlorophylls and heme in plants. It has also been suggested widely for applications to crops to enhance growth and production as a plant growth regulator. However, how successful ALA can be used in fruit production was rarely reported. We conducted a field experiment at eight locations in four provinces across eastern China; and the results showed that application of ALA solutions to ‘Fuji’ apple (Malus × domestica Borkh.) fruits 20 days prior to harvest significantly increased the anthocyanin content in the fruit skin. Also, ALA treatment increased the anthocyanin content of the detached apple skin in a growth chamber. Results from the semi-quantitive RT-PCR analysis showed that ALA induced gene expressions related to anthocyanin biosynthesis, including the structural genes Pal, Chs and Ufgt, and regulatory genes Myb, bHLH and Wd40. When levulinic acid (LA), an inhibitor of ALA dehydrase, was added, ALA promotion of anthocyanin accumulation and up-regulation of gene expressions were inhibited. Taken together, these results suggest that ALA promotion of anthocyanin accumulation in apples was facilitated by the up-regulation of gene expression, which might be related to the conversion of ALA to porphyrins. 相似文献