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The latest research results were published in eLife of Southern Medical University
Time of Update: 2022-10-13
On September 27, Professor Peng Fei's research group of the Department of Psychology of the School of Public Health published a research paper entitled "Bumblebees retrieve only the ordinal ranking o
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eLife: Captured the unstable rate at which DNA replicates proteins in bacteria
Time of Update: 2022-10-13
Now, researchers at the Okinawa Institute of Science and Technology (OIST) in Japan have developed a new model that can determine the rate of change in the genome of complex replicating bacteria.
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Effects of extreme snowfall events on litter respiration in subtropical evergreen broad-leaved forests
Time of Update: 2022-10-13
The findings, titled Responses of aboveground litterfall respiration to unexpected snowfall events in Ailao subtropical forests in Southwest China, were published in Applied Soil Ecology 。 The research has received strong support from the National Foundation, the Yunnan Provincial Fund, the 135 Project of the Chinese Academy of Sciences, the Key Laboratory of Tropical Forest Ecology of the Chinese Academy of Sciences and the Ailao Mountain Ecological Station.
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How America Lost the Battle for the Best Scientific Guide Early in the Crisis: COVID-19 and Beyond
Time of Update: 2022-10-13
"Pro" is a feature of a page whose content actively promotes the best scientific health guidance (Pro vaccination); "Anti" is a webpage with content that actively opposes this guide (anti-vaccination) and "neutral" is a webpage with community-level links to the former COVID-19 of the support/opposition community, but whose content focuses on other topics such as parenting (e.
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Science of Fudan University recently published an article: revealing the mechanism of +1 nucleosome regulating transcriptional initiation
Time of Update: 2022-10-13
As the core of gene expression regulation, the transcriptional initiation process occurs in the promoter region of the gene, exposing the promoter by removing nucleosomes from the chromatin remodelin
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Lingxia Huang's lab publishes a paper at ANTIOXIDANTS
Time of Update: 2022-10-13
3390/antiox11091764Published: SEP 2022Document type: ArticleAttachments: Links to the full text :Identification and Antioxidant Capacity of Free and Bound Phenolics in Six Varieties of Mulberry Seeds Using UPLC-ESI-QTOF-MS/MS(IF=7.
886)Author: Gao, Huaqi ; Guo, Meimei ; Wang, Liqin ; Sun, Cui ; Huang, Lingxia*Source: ANTIOXIDANTSVolume 11 9 Publication No. 1764DOI10.
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The Zhanxiu An lab published a paper at ANTIOXIDANTS
Time of Update: 2022-10-13
:Bacterial Metabolite Reuterin Attenuated LPS-Induced Oxidative Stress and Inflammation Response in HD11 Macrophages(IF=7.
:Bacterial Metabolite Reuterin Attenuated LPS-Induced Oxidative Stress and Inflammation Response in HD11 Macrophages(IF=7.
3390/antiox11091662Published: SEP 2022Document type: ArticleAttachments: Links to the full text
3390/antiox11091662Published: SEP 2022Document type: ArticleAttachments: Links to the full text
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Feng Jie's lab publishes papers at ANIMALS
Time of Update: 2022-10-13
312)Author: Zhang, Ruiqiang ; Liu, Jinsong ; Liu, Yulan ; Wu, Yanping ; Xu, Yinglei ; Feng, Jie*Source: ANIMALSVolume 12 Issue 17 Publication No. 2281DOI10.
312)Author: Zhang, Ruiqiang ; Liu, Jinsong ; Liu, Yulan ; Wu, Yanping ; Xu, Yinglei ; Feng, Jie*Source: ANIMALSVolume 12 Issue 17 Publication No. 2281DOI10.
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Lingling Chen was invited to publish a review on the topic of long noncoding RNA research in Nature Methods
Time of Update: 2022-10-13
TRS_Editor A{font-family:;font-size:12pt;} On October 6, Chen Lingling, a researcher at the Center for Excellence and Innovation in Molecular Cell Science (Institute of Biochemistry and Cell Biology) of the Chinese Academy of Sciences, was invited to deliver a keynote commentary entitled "Towards higher-resolution and in vivo understanding of lncRNA biogenesis and function" at Nature Methods.
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Chinese scholars have made progress in the study of high-precision time-frequency transfer over long free space
Time of Update: 2022-10-13
Figure Schematic diagram of 100-kilometer high-precision time-frequency transmission experiment With the support of the National Natural Science Foundation of China (approval number: T2125010, 618255
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Cell, a scholar at the Chinese Academy of Sciences, published that calcium transients on the surface of the endoplasmic reticulum are the key signals that initiate the formation of autophagosomes in the endoplasmic reticulum
Time of Update: 2022-10-13
On October 5, 2022, Zhang Hong's research group at the Institute of Biophysics of the Chinese Academy of Sciences published a research paper entitled "Calcium transients on the ER surface trigger liquid-liquid phase separation of FIP200 to specify autophagosome initiation sites" online in Cell 。 This paper found that calcium transients on the surface of the endoplasmic reticulum caused by autophagy induction conditions are the key signals that determine the formation of autophagosomes on the endoplasmic reticulum.
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Li Dong's research group and collaborators developed a rationalized deep learning super-resolution microscopic imaging method
Time of Update: 2022-10-13
In recent years, computational superresolution methods represented by deep learning have been able to improve the resolution or signal-to-noise ratio of microscopic images without losing other imagin
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The Ma Jinbiao team of Fudan University and the Kaiming team of Zhang Kaiming of the University of Science and Technology of China cooperated to analyze the cryo-electron microscopy structure of human m6A methylase complex
Time of Update: 2022-10-13
4?, and built the relative spatial relationship between the two subunits in the MAC-MACOM complex by means of the resolved METTL3/14 core crystal structure and the zinc finger solution structure (Video 1), and then analyzed the cross-linked mass spectrometry results of the s4U-labeled RNA substrate and the MAC-MACOM complex.
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Hello Watson and Crick, we are mortise and mortise
Time of Update: 2022-10-13
Using simple four-arm branched DNA nanostructures as templates, the authors design optimization of the viscous ends at their branches, and the bonded interface of the sticky ends presents a variety of different geometric configurations by inserting a specific number of base pairs.
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Reproductive ecology combined with population genetics reveals pansexual mulberry parasitism...
Time of Update: 2022-10-13
Host-mediated effects in the reproductive phenological asynchrony of a generalist mistletoe in China (2) The spatial distribution pattern of the five-ruby parasite was investigated in 13 samples in 4 sites, and the heterogeneity and population genetic structure of 76 parents and 829 offspring in 4 sites were calculated using 13 microsatellite markers, and the fine-scale spatial genetic structure was analyzed on 166 five-branched parasitic individuals infected in 4 mango trees in the same group.
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Immune cell dysregulation is a driver of COVID-19 severity
Time of Update: 2022-10-13
Image source: Science Translational MedicineIn one of the largest single-center COVID-19 cohort studies to date, researchers at the Icahn School of Medicine at Mount Sinai used samples collected during the peak of the pandemic in New York City to identify a key driver of disease severity affecting COVID-19.
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Tsinghua University's latest Nature article: NuA4 Mechanism of Selective Acetylated Histone H4
Time of Update: 2022-10-13
The NuA4 complex, consisting of 13 subunits, is divided into two large modules (Figure 1c): the histone acetyltransferase (HAT) and the transcription activator-binding (TRA).
The NuA4 complex, consisting of 13 subunits, is divided into two large modules (Figure 1c): the histone acetyltransferase (HAT) and the transcription activator-binding (TRA).
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The Chengdu Institute of Biology has made new progress in the influence of soil phosphorus composition by land use change on the Qinghai-Tibet Plateau
Time of Update: 2022-10-13
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Slows down the disease process of "sudden death"
Time of Update: 2022-10-13
Loss of Nuclear Envelope Integrity and Increased Oxidant Production Cause DNA Damage in Adult Hearts Deficient in PKP2: A Molecular Substrate of ARVC Traditional medicine can slow the development of heart disease.
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Nature Immunology: A new mechanism of breast cancer drug resistance
Time of Update: 2022-10-13
essayType I IFNs promote cancer cell stemness by triggering the epigenetic regulator KDM1B Scientists from Università Cattolica in Rome and colleagues from the IIGM Foundation (part of the Candiolo Institute in Turin) have discovered in breast cancer a new mechanism of drug resistance that leads to the formation of cancer stem cells (cells that nourish tumors and lead to recurrence and metastasis).
