Motoko Unoki
Motoko Unoki
DnaA regulates stationary phase-specific expression of a AAA family gene in Caulobacter crescentus [0.03%]
Caulobacter crescentus 中的DNAa 调控淀粉站相特异表达的一个AAA家族基因
Takumi Tsuruda,Ryota Todoroki,Naho Kojima et al.
Takumi Tsuruda et al.
In most eubacteria the initiator protein DnaA triggers chromosomal replication by forming an initiation complex at the origin of replication and also functions as a transcriptional regulator, coordinating gene expression with cell cycle pro...
Christopher B Mulholland,Atsuya Nishiyama
Christopher B Mulholland
Maintenance DNA methylation is essential for the stable inheritance of epigenetic information in vertebrates. While DNMT1 has long been recognized as the principal maintenance methyltransferase, recent studies have shown that its activity c...
Development and characterization of expressed sequence tag-simple sequence repeat markers for the near-threatened halophyte Artemisia fukudo Makino [0.03%]
羽坛飞绒藻表达序列标签-简单重复序列标记的开发与表征
Yoshikuni Hodoki,Kako Ohbayashi,Naoko Ishikawa et al.
Yoshikuni Hodoki et al.
RNA sequencing analysis was performed to develop 16 novel expressed sequence tag-simple sequence repeat (EST-SSR) markers to evaluate genetic variation in the near-threatened halophyte Artemisia fukudo Makino, which inhabits riversides and ...
Congenital diseases with defects in DNA methylation maintenance: Focusing on ICF syndrome and multilocus imprinting disturbance [0.03%]
DNA甲基化维持缺陷所致的遗传性疾病:ICF综合征和多个位点印迹障碍:focus及and多出的标点符号可删除也可保留,具体看要求
Motoko Unoki
Motoko Unoki
DNA methylation is essential for transcriptional regulation and the maintenance of chromosome stability, and its precise inheritance upon DNA replication is indispensable for cellular homeostasis. The DNMT1/UHRF1 complex is critical in copy...
A Comprehensive Review of Structural Insights into DNA Methylation Maintenance [0.03%]
DNA甲基化维持的结构见解综述
Amika Kikuchi,Kyohei Arita
Amika Kikuchi
DNA methylation is faithfully inherited during cell division, playing a crucial role in maintaining cellular identity. The process of DNA methylation maintenance relies on DNA methyltransferase DNMT1 and the ubiquitin E3 ligase UHRF1. UHRF1...
Identification of candidate transcription factors that regulate Sox9 expression through the testis-specific enhancer in the Amami spiny rat (Tokudaia osimensis), an XO/XO mammal [0.03%]
通过睾丸特异性增强子调节Amami棘鼠(Tokudaia osimensis)Sox9表达的候选转录因子鉴定(XO/XO哺乳动物)
Shoichiro Mitsukawa,Shusei Mizushima,Yuki Kimura et al.
Shoichiro Mitsukawa et al.
Testicular differentiation of undifferentiated gonads is generally triggered by the sex-determining region of chromosome Y (SRY/Sry) gene on the Y chromosome in most mammals. SRY and nuclear receptor subfamily 5, group A, member 1 (NR5A1) p...
Genetic Diversity and Population Structure of Cybister rugosus Based on the Mitochondrial COI Gene and Microsatellite Markers [0.03%]
基于线粒体COI基因和微卫星标记的曲纹臂尾螳虾遗传多样性和群体结构分析
Fadel A Azhari,Etsuko Moritsuka,Ken-Ichi Odagiri et al.
Fadel A Azhari et al.
The aquatic beetle Cybister rugosus has experienced ongoing habitat loss, a decline in population numbers, and confirmed extinctions among insular populations in Japan, it has recently been listed on the Red List as endangered by the Japane...
Multiple Sry genes with an A-to-S substitution in the HMG domain retain DNA-binding ability in the Okinawa spiny rat [0.03%]
具有HMG域A-to-S替换的多个Sry基因保留了在冲绳刺鼠中的DNA结合能力
Puntakarn Urunanont,Shusei Mizushima,Takeshi Uchida et al.
Puntakarn Urunanont et al.
The mammalian sex-determining gene SRY is highly conserved across species, with only a few exceptions. The Japanese rodent genus Tokudaia is known for its unique sex chromosome evolution. The Okinawa spiny rat Tokudaia muenninki (TMU) acqui...
Involvement of Escherichia coli unconventional G protein, YchF, in cell growth at the stationary phase [0.03%]
非典型G蛋白YchF参与大肠杆菌静止期细胞生长的作用
Yuto Kotaka,Takahiro Nagai,Kento Tominaga et al.
Yuto Kotaka et al.
YchF is a universally conserved unconventional G protein. It is known to be involved in the translation of leaderless mRNA. However, leaderless mRNA is rare in E. coli under normal culture conditions, so we analyzed E. coli YchF to clarify ...