Characterization of Angiogenic, Matrix Remodeling, and Antimicrobial Factors in Preterm and Full-Term Human Umbilical Cords [0.03%]
人脐带中血管生成、基质重塑和抗菌因子的特征研究——胎龄对上述因子的影响
Kaiva Zile Zarina,Mara Pilmane
Kaiva Zile Zarina
Background: Little is known about morphogenetic changes in the umbilical cord during the maturation process. Extracellular matrix remodeling, angiogenesis, progenitor activity, and immunomodulation are represented by spec...
Planar Cell Polarity Signaling: Coordinated Crosstalk for Cell Orientation [0.03%]
平面细胞极性信号转导:细胞取向的协调串话
Sandeep Kacker,Varuneshwar Parsad,Naveen Singh et al.
Sandeep Kacker et al.
The planar cell polarity (PCP) system is essential for positioning cells in 3D networks to establish the proper morphogenesis, structure, and function of organs during embryonic development. The PCP system uses inter- and intracellular feed...
A Residual N-Terminal Peptide Enhances Signaling of Depalmitoylated Hedgehog to the Patched Receptor [0.03%]
去棕榈酰化Hh的N末端残基肽增强与Ptc受体信号转导
Sophia F Ehlers,Dominique Manikowski,Georg Steffes et al.
Sophia F Ehlers et al.
During their biosynthesis, Sonic hedgehog (Shh) morphogens are covalently modified by cholesterol at the C-terminus and palmitate at the N-terminus. Although both lipids initially anchor Shh to the plasma membrane of producing cells, it lat...
Effect of Cyclic Adenosine Monophosphate on Connexin 37 Expression in Sheep Cumulus-Oocyte Complexes [0.03%]
环磷酸腺苷对绵羊卵母细胞-颗粒细胞复合体Cx37表达的影响
Mengyao Zhao,Gerile Subudeng,Yufen Zhao et al.
Mengyao Zhao et al.
Gap junctional connection (GJC) in the cumulus-oocyte complex (COC) provides necessary support for message communication and nutrient transmission required for mammalian oocyte maturation. Cyclic adenosine monophosphate (cAMP) is not only a...
Cell Reprogramming and Differentiation Utilizing Messenger RNA for Regenerative Medicine [0.03%]
用于再生医学的信使RNA诱导的细胞重编程和分化
Masahito Inagaki
Masahito Inagaki
The COVID-19 pandemic generated interest in the medicinal applications of messenger RNA (mRNA). It is expected that mRNA will be applied, not only to vaccines, but also to regenerative medicine. The purity of mRNA is important for its medic...
Noopur Naik,Mansi Patel,Rwik Sen
Noopur Naik
Developmental biology is intricately regulated by epigenetics and metabolism but the mechanisms are not completely understood. The situation becomes even more complicated during diseases where all three phenomena are dysregulated. A salient...
Regeneration Abilities among Extant Animals Depend on Their Evolutionary History and Life Cycles [0.03%]
现存动物的再生能力取决于他们的进化历史和生命周期
Lorenzo Alibardi
Lorenzo Alibardi
The present brief manuscript summarizes the main points supporting recently proposed hypotheses explaining the different distributions of regenerative capacity among invertebrates and vertebrates. The new hypotheses are based on the evoluti...
Developmental Anomalies in Human Teeth: Odontoblastic Differentiation in Hamartomatous Calcifying Hyperplastic Dental Follicles Presenting with DSP, Nestin, and HES1 [0.03%]
人类牙齿的发育异常:牙源性钙化增生囊肿中成釉细胞的分化特征,包含DSP、Nestin和HES1标记物
Hiromasa Hasegawa,Katsumitsu Shimada,Takanaga Ochiai et al.
Hiromasa Hasegawa et al.
Hyperplastic dental follicles (HDFs) represent odontogenic hamartomatous lesions originating from the pericoronal tissues and are often associated with impacted or embedded teeth. These lesions may occasionally feature unique calcifying bod...
Impact of Stem Cells on Reparative Regeneration in Abdominal and Dorsal Skin in the Rat [0.03%]
干细胞对大鼠腹侧和背侧皮肤再生修复的影响
Evgeniya Kananykhina,Andrey Elchaninov,Galina Bolshakova
Evgeniya Kananykhina
A characteristic feature of repair processes in mammals is the formation of scar tissue at the site of injury, which is designed to quickly prevent contact between the internal environment of the organism and the external environment. Despi...
Identification of a Chondrocyte-Specific Enhancer in the Hoxc8 Gene [0.03%]
Hoxc8基因中的一种软骨细胞特异性增强子的鉴定
Stephania A Cormier,Claudia Kappen
Stephania A Cormier
Hox genes encode transcription factors whose roles in patterning animal body plans during embryonic development are well-documented. Multiple studies demonstrate that Hox genes continue to act in adult cells, in normal differentiation, in r...