Huihui Liu,Nianyi Sun,Zhenxing Liu et al.
Huihui Liu et al.
Background: Neurodevelopmental disorders manifest in early childhood and are characterized by cognitive deficits, intellectual disabilities, motor disorders, and social dysfunction. Mutations in BCAS3 gene are associated ...
Detection of KPC-producing Enterobacterales species in wastewater samples from the Gran Concepción Metropolitan area, Chile [0.03%]
智利大康塞普ión metropolitan区域废水样品中产KPC肠杆菌科物种的检测
Franco Ilabaca-Carrasco,Carlos Peña-Raddatz,Claudia Torres-Bustos et al.
Franco Ilabaca-Carrasco et al.
Background: Carbapenemase-mediated resistance to carbapenems is a significant public health concern due to its potential for widespread dissemination. The KPC family of carbapenemases, encoded by the blaKPC gene and often...
Harnessing genetic diversity in wheat to enhance grain nutrition and yield for biofortification breeding [0.03%]
利用遗传多样性提高小麦营养价值和生物强化育种产量的研究
Sadia Hakeem,Zulfiqar Ali,Muhammad Abu Bakar Saddique et al.
Sadia Hakeem et al.
Background: Iron (Fe) and zinc (Zn) deficiencies affect more than two billion people globally. Moreover, phytic acid (PA), an essential phosphorus storage molecule, acts at the same time as an inhibitor of Fe and Zn, form...
Graphene nanoplatelets enhance neuronal differentiation of human bone marrow mesenchymal stem cells [0.03%]
石墨烯纳米片可促进人骨髓间充质干细胞的神经分化
Gulsah Sevimli,Eda Kus,Gulin Baran et al.
Gulsah Sevimli et al.
Stem cell technology plays a key role in advancing the understanding of neurological treatments and developing disease models that mimic human conditions. Differentiation of human bone marrow mesenchymal stem cells (hBMSCs) into neurons sho...
Decoding a novel non-enzymatic protein acetylation mechanism in sperm that is essential for fertilizing potential [0.03%]
解码新型非酶蛋白质乙酰化机制对精子受精潜力的重要性
María Iniesta-Cuerda,Jan Nevoral,Dario Krapf et al.
María Iniesta-Cuerda et al.
Background: Protein acetylation has emerged as essential for sperm function, attracting considerable attention recently. Acetylation, typically mediated by lysine acetyltransferases, involves attaching an acetyl group fro...
Correction: Small extracellular vesicles enhance the survival of Sca-1+ cardiac stem cells against ROS-induced ischemic-reoxygenation injury in vitro [0.03%]
订正:小细胞外囊泡可增强Sca-1+心脏干细胞在ROS诱导的缺血/再灌注损伤中的存活能力(体外研究)
Radwa A Mehanna,Hagar Elkafrawy,Marwa M Essawy et al.
Radwa A Mehanna et al.
Published Erratum
Biological research. 2025 May 29;58(1):31. DOI:10.1186/s40659-025-00611-8 2025
Mesenchymal stem cells reduce the genotoxic effect of lead acetate in the testis of male rats and induce testicular cellular proliferation indicated by 16S rRNA sequence, increase the proliferation marker Ki-67 and a reduction in the apoptosis marker caspase-3 [0.03%]
骨髓间充质干细胞减轻醋酸铅对大鼠睾丸基因毒性并诱导生精细胞增殖的机制研究
Mohamed Allam,Yahia A Amin,Samer S Fouad et al.
Mohamed Allam et al.
Background: Lead is a ubiquitous environmental and industrial pollutant with worldwide health problems. Lead acetate toxicity induces both genotoxic effects and apoptosis. The present study aimed to investigate the usage ...
Heterozygous deletion of exon 17 of the Kit gene impairs mouse spermatogenesis by attenuating MAPK-ERK signaling [0.03%]
猫眼素基因第17外显子杂合缺失通过削弱MAPK-ERK信号传导损害小鼠生精功能
Siyuan Lin,Min Yang,Weipeng Zhu et al.
Siyuan Lin et al.
Background: A splice mutation that causes skipping of exon 17 in the KIT gene is a major reason for the dominant white phenotype of pigs. Exon 17 of the KIT gene may be related to differences in testis size and sperm qual...
NAMPT regulates mitochondria and oxidative stress level for mouse early embryo development [0.03%]
NAMPT调节小鼠早期胚胎发育过程中的线粒体和氧化压力水平
Mei-Hua Liao,Xin Liu,Xiao-Ting Yu et al.
Mei-Hua Liao et al.
Background: Nicotinamide phosphoribosyltransferase (NAMPT) is an enzyme that involves into NMN-NAD + synthesis which involves into cellular metabolism related with aging, immune function, and neurodegeneration. However, i...
Inhibition of CD45-specific phosphatase activity restores the differentiation potential of aged mesenchymal stromal cells: implications in regenerative medicine [0.03%]
衰老基质细胞中CD45特异性磷酸酶活性的抑制可恢复其分化潜能:再生医学中的意义
Madhurima Das,Isha Behere,Ganesh Ingavle et al.
Madhurima Das et al.
Background: Aging affects the reparative potency of mesenchymal stem/stromal cells (MSCs) by diminishing their proliferation and differentiation capability; making them unsuitable for regenerative purposes. Earlier we sho...