Zongqiang Li scite author profile

Cas13a, a type VI-A CRISPR-Cas RNA-guided RNA ribonuclease, degrades invasive RNAs targeted by CRISPR RNA (crRNA) and has potential applications in RNA technology. To understand how Cas13a is activated to cleave RNA, we have determined the crystal structure of Leptotrichia buccalis (Lbu) Cas13a bound to crRNA and its target RNA, as well as the cryo-EM structure of the LbuCas13a-crRNA complex. The crRNA-target RNA duplex binds in a positively charged central channel of the nuclease (NUC) lobe, and Cas13a protein and crRNA undergo a significant conformational change upon target RNA binding. The guide-target RNA duplex formation triggers HEPN1 domain to move toward HEPN2 domain, activating the HEPN catalytic site of Cas13a protein, which subsequently cleaves both single-stranded target and collateral RNAs in a non-specific manner. These findings reveal how Cas13a of type VI CRISPR-Cas systems defend against RNA phages and set the stage for its development as a tool for RNA manipulation.

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Microwave pyrolysis of corn stalk bale: A promising method for direct utilization of large-sized biomass and syngas production

Zhao

Song

Liu

et al. 2010

Journal of Analytical and Applied Pyrolysis

102

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Cyclic diguanylate monophosphate directly binds to human siderocalin and inhibits its antibacterial activity

Cui

et al. 2015

Nat Commun

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Cyclic diguanylate monophosphate (c-di-GMP) is a well-conserved second messenger in bacteria. During infection, the innate immune system can also sense c-di-GMP; however, whether bacterial pathogens utilize c-di-GMP as a weapon to fight against host defense for survival and possible mechanisms underlying this process remain poorly understood. Siderocalin (LCN2) is a key antibacterial component of the innate immune system and sequesters bacterial siderophores to prevent acquisition of iron. Here we show that c-di-GMP can directly target the human LCN2 protein to inhibit its antibacterial activity. We demonstrate that c-di-GMP specifically binds to LCN2. In addition, c-di-GMP can compete with bacterial ferric siderophores to bind LCN2. Furthermore, c-di-GMP can significantly reduce LCN2-mediated inhibition on the in vitro growth of Escherichia coli. Thus, LCN2 acts as a c-di-GMP receptor. Our findings provide insight into the mechanism by which bacteria utilize c-di-GMP to interfere with the innate immune system for survival.

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African Swine Fever Virus Regulates Host Energy and Amino Acid Metabolism To Promote Viral Replication

Xue

Liu

Zhu

et al. 2022

J Virol

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African swine fever is one of the most serious viral diseases caused by African swine fever virus (ASFV). The metabolic changes induced by ASFV infection remain unknown. Here, PAMs infected with ASFV was analyzed by ultra-high-performance liquid chromatography/quadrupole time-of-flight tandem mass spectrometry (UHPLC-QTOF-MS) in combination with multivariate statistical analysis. A total of 90 metabolites were significantly changed after ASFV infection, and most of them belong to amino acids and TCA cycle intermediates. ASFV infection induced increase of most of amino acids in host during the early stages of infection, and amino acids decreased in the late stages of infection. ASFV infection did not significantly affected glycolysis pathway, whereas it induced the increase of citrate, succinate, α-ketoglutarate, and oxaloacetate levels in the TCA cycle, suggesting that ASFV infection promoted TCA cycle. The activity of aspartate aminotransferase and glutamate production were significantly elevated in ASFV-infected cells and pigs, resulting in reversible transition between TCA cycle and amino acids synthesis. Aspartate, glutamate, and TCA cycle were essential for ASFV replication. In addition, ASFV infection induced an increase in lactate level using lactate dehydrogenase, which led to low expression of IFN-β and increased of ASFV replication. Our data, for the first time, indicated that ASFV infection controls IFN-β production through RIG-I-mediated signaling pathways. These data identified a novel mechanism evolved by ASFV to inhibit host innate immune responses, and will provide insights for development of new preventive or therapeutic strategies targeting the altered metabolic pathways. IMPORTANCE In order to promote viral replication, viruses often cause severe immunosuppression and seize organelles to synthesize a large number of metabolites required for self-replication. African swine fever virus (ASFV) has developed many strategies to evade host innate immune responses. However, the impact of ASFV infection on host cellular metabolism remains unknown. Here, for the first time, we analyzed the metabolomic profiles of ASFV-infected PAMs cells. ASFV infection increased host TCA cycle and amino acids metabolism. Aspartate, glutamate, and TCA cycle promoted ASFV replication. ASFV infection also induced the increase of lactate production to inhibit innate immune responses for self-replication. This study identified novel immune evasion mechanisms utilized by ASFV and provided viewpoints on ASFV-host interactions, which is critical for guiding the design of new prevention strategies against ASFV targeting the altered metabolic pathways.

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Zongqiang Li

The Molecular Architecture for RNA-Guided RNA Cleavage by Cas13a

Microwave pyrolysis of corn stalk bale: A promising method for direct utilization of large-sized biomass and syngas production

Cyclic diguanylate monophosphate directly binds to human siderocalin and inhibits its antibacterial activity

African Swine Fever Virus Regulates Host Energy and Amino Acid Metabolism To Promote Viral Replication

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