Qiang Zhou

Dec 6, 2024 | onlinelibrary.wiley.com | Lang Wu |Shenzhen Institutes |Qiang Zhou |Meta Platforms

References 1 and , “Internet of Things (IoT), Applications and Challenges: A Comprehensive Review,” Wireless Personal Communications 114 (2020): 1687–1762. 2, , , , and , “A Review and State of Art of Internet of Things (IoT),” Archives of Computational Methods in Engineering (2021): 1–19. 3, , and , “Internet of Things: A General Overview Between Architectures, Protocols and Applications,” Information 12, no. 2 (2021): 87.

Oct 21, 2024 | amazon.science | Nan Jiang |Xiaopeng Li |Shiqi Wang |Qiang Zhou

In the domain of code generation, self-debugging is crucial. It allows LLMs to refine their generated code based on execution feedback. This is particularly important because generating correct solutions in one attempt proves challenging for complex tasks.

Jul 27, 2024 | springerprofessional.de | Yi Li |Qiang Zhou |Fenggui Liu |Asim Biswas |Guang Yang |Faliang Yuan | +1 more

2024 | Buch This book explores spatiotemporal analysis and impact assessment of agricultural drought in China and investigates the correlation coefficient between meteorological drought and agricultural drought. It then conducts multivariate frequency analysis of drought events using drought indices and copula functions. It aims to reveal spatiotemporal characteristics and impacts of agricultural drought in China both on vegetation phenology and productivity.

Jun 17, 2024 | biorxiv.org | Fayang Zhou |Yuanyuan Zhang |Yuyao Zhu |Qiang Zhou

AbstractHuman acetyl-CoA carboxylases (ACCs) catalyze the carboxylation of acetyl-CoA, which is the rate-limiting step in fatty acid synthesis. The molecular mechanism underlying the dynamic organization of ACCs is largely unknown. Here, we determined the cryo-EM structure of human ACC1 in its inactive state, which forms a unique filament structure and is in complex with acetyl-CoA.

May 2, 2024 | biorxiv.org | Yuanyuan Zhang |Yuyao Zhu |Qiang Zhou |Fayang Zhou

AbstractPropionyl-CoA carboxylase (PCC) and 3-methylcrotonyl-CoA carboxylase (MCC) are biotin-dependent carboxylases (BDCs) that catalyze the metabolism of odd-chain fatty acids, cholesterol, and specific amino acids. For human PCC and MCC, only a low-resolution (15 Å) three-dimensional structure of human PCC has been reported. Here, we report high-resolution (2.29–3.28 Å) cryo-EM structures of human PCC and MCC holoenzymes in their apo and acetyl-CoA and propionyl-CoA-bound states.