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991.
992.
Connexins are gap-junction proteins forming hexameric structures in the plasma membranes of adjacent cells, thereby creating
intercellular channels. Connexin 43 (CX43) is expressed in pulp tissue. However, its function in dental pulp tissue has yet
to be fully investigated. We have employed antisense oligonucleotides (AS) against rat CX43 to study the role of CX43 in dental
pulp cells. Cultured dental pulp cells were treated with AS or sense (S) oligonucleotides. The number of cells in the AS-treated
groups was approximately 1.3-fold that in the S-treated controls. Growth rates were significantly different between the AS-
and S-treated groups at 48 h (P < 0.01). An alkaline phosphatase assay revealed that AS-treated pulp cells dramatically decreased at 48 h after AS incorporation,
whereas S-treated pulp cells showed no marked changes. Western blot analysis revealed that heat-shock protein 25 was highly
expressed in S-treated cells but was only weakly expressed in AS-treated cells at 48 h. Furthermore, AS-treated cells highly
expressed CX45, whereas S-treated cells exhibited high expression of CX32. These results suggest that CX43 is involved in
cell growth, mineralization, and differentiation to odontoblasts in rat pulp cells, and that CX43 plays the opposite role
to that of CX45. 相似文献
993.
Autotransporter proteins constitute a family of outer membrane/secreted proteins that possess unique structural properties that facilitate their independent transport across the bacterial membrane system and final routing to the cell surface. Autotransporter proteins have been identified in a wide range of Gram-negative bacteria and are often associated with virulence functions such as adhesion, aggregation, invasion, biofilm formation and toxicity. The importance of autotransporter proteins is exemplified by the fact that they constitute an essential component of some human vaccines. Autotransporter proteins contain three structural motifs: a signal sequence, a passenger domain and a translocator domain. Here, the structural properties of the passenger and translocator domains of three type Va autotransporter proteins are compared and contrasted, namely pertactin from Bordetella pertussis, the adhesion and penetration protein (Hap) from Haemophilus influenzae and Antigen 43 (Ag43) from Escherichia coli. The Ag43 protein is described in detail to examine how its structure relates to functional properties such as cell adhesion, aggregation and biofilm formation. The widespread occurrence of autotransporter-encoding genes, their apparent uniform role in virulence and their ability to interact with host cells suggest that they may represent rational targets for the design of novel vaccines directed against Gram-negative pathogens. 相似文献
994.
995.
996.
The piRNA amplification pathway in Bombyx is operated by Ago3 and Siwi in their piRISC form. The DEAD‐box protein, Vasa, facilitates Ago3‐piRISC production by liberating cleaved RNAs from Siwi‐piRISC in an ATP hydrolysis‐dependent manner. However, the Vasa‐like factor facilitating Siwi‐piRISC production along this pathway remains unknown. Here, we identify DEAD‐box polypeptide 43 (DDX43) as the Vasa‐like protein functioning in Siwi‐piRISC production. DDX43 belongs to the helicase superfamily II along with Vasa, and it contains a similar helicase core. DDX43 also contains a K‐homology (KH) domain, a prevalent RNA‐binding domain, within its N‐terminal region. Biochemical analyses show that the helicase core is responsible for Ago3‐piRISC interaction and ATP hydrolysis, while the KH domain enhances the ATPase activity of the helicase core. This enhancement is independent of the RNA‐binding activity of the KH domain. For maximal DDX43 RNA‐binding activity, both the KH domain and helicase core are required. This study not only provides new insight into the piRNA amplification mechanism but also reveals unique collaborations between the two domains supporting DDX43 function within the pathway. 相似文献
997.
MengJie Zhao Xiao Yao Ping Wei Chen Zhao Meng Cheng Dong Zhang Wen Xue WenTian He Weili Xue Xinxin Zuo LeiLei Jiang Zhiyuan Luo Jiaqi Song WenJie Shu HanYe Yuan Yi Liang Hui Sun Yan Zhou Yu Zhou Ling Zheng HongYu Hu Jiwu Wang HaiNing Du 《EMBO reports》2021,22(6)
Pathological TDP‐43 aggregation is characteristic of several neurodegenerative diseases, including amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD‐TDP); however, how TDP‐43 aggregation and function are regulated remain poorly understood. Here, we show that O‐GlcNAc transferase OGT‐mediated O‐GlcNAcylation of TDP‐43 suppresses ALS‐associated proteinopathies and promotes TDP‐43''s splicing function. Biochemical and cell‐based assays indicate that OGT''s catalytic activity suppresses TDP‐43 aggregation and hyperphosphorylation, whereas abolishment of TDP‐43 O‐GlcNAcylation impairs its RNA splicing activity. We further show that TDP‐43 mutations in the O‐GlcNAcylation sites improve locomotion defects of larvae and adult flies and extend adult life spans, following TDP‐43 overexpression in Drosophila motor neurons. We finally demonstrate that O‐GlcNAcylation of TDP‐43 promotes proper splicing of many mRNAs, including STMN2, which is required for normal axonal outgrowth and regeneration. Our findings suggest that O‐GlcNAcylation might be a target for the treatment of TDP‐43‐linked pathogenesis. 相似文献
998.
The proteins encoded by psaA and psaB form a heterodimer, an essential compound of photosystem; while the protein encoded by psbC binds with chlorophyll a in photosystem II, serving as antennae in photosystem. Here we report that a heterocyclic brominated flame retardant, tris(2,3-dibromopropyl) isocyanurate (TBC), inhibited the expression of psaA and psbC, then leads to the decrease of Nannochloropsis sp.'s growth biomass. TBC exposure inhibited the expression of psaA and psbC at 10, 100 ng/mL slightly and 1000 ng/mL significantly. In addition, TBC was found to slow down the growth of Nannochloropsis sp. at concentrations ranging from 10 to 1000 ng/mL. These results indicated that TBC influenced both photosynthesis and growth performance of Nannochloropsis sp. 相似文献
999.
1000.
Luan T. Tran Benoit J. Gentil Kathleen E. Sullivan Heather D. Durham 《Journal of neurochemistry》2014,130(3):455-466
Excitotoxicity and disruption of Ca2+ homeostasis have been implicated in amyotrophic lateral sclerosis (ALS) and limiting Ca2+ entry is protective in models of ALS caused by mutation of SOD1. Lomerizine, an antagonist of L‐ and T‐type voltage‐gated calcium channels and transient receptor potential channel 5 transient receptor potential channels, is well tolerated clinically, making it a potential therapeutic candidate. Lomerizine reduced glutamate excitotoxicity in cultured motor neurons by reducing the accumulation of cytoplasmic Ca2+ and protected motor neurons against multiple measures of mutant SOD1 toxicity: Ca2+ overload, impaired mitochondrial trafficking, mitochondrial fragmentation, formation of mutant SOD1 inclusions, and loss of viability. To assess the utility of lomerizine in other forms of ALS, calcium homeostasis was evaluated in culture models of disease because of mutations in the RNA‐binding proteins transactive response DNA‐binding protein 43 (TDP‐43) and Fused in Sarcoma (FUS). Calcium did not play the same role in the toxicity of these mutant proteins as with mutant SOD1 and lomerizine failed to prevent cytoplasmic accumulation of mutant TDP‐43, a hallmark of its pathology. These experiments point to differences in the pathogenic pathways between types of ALS and show the utility of primary culture models in comparing those mechanisms and effectiveness of therapeutic strategies.