Dynamic visualization of DNA methylation in cell cycle genes during iPSC cardiac differentiation by Ning Li (45258)

Contemporary mean inundation fraction in the Amazon basin. by Nic Gedney (19762301)

Individual serum progesteronemia during the cycle of experiment 1. by Marine Denis (22319979)

Habitat with autocatalytic host cycle (Model 1). by Magnus Pirovino (14845999)

Observed values, synthetic control estimates, causal effects, with confidence intervals, by country and moral foundation. by Daniel Hart (440152)

Subjects:

Feeding and starvation affect the proportion and cell cycle activity of Vasa2+/Piwi1+ cells. by Eudald Pascual-Carreras (12115380)

“…Significance levels after one-way ANOVA with Tukey’s HSD for pairwise comparisons are indicated for adjusted <i>p</i> values: **<i>p</i> < 0.01; ***<i>p</i> < 0.001; ****<i>p</i> < 0.0001. bs: brine shrimp; d: day(s); gb: glass beads; n.s.: non-significant. …”

<i>JRC</i> values of concrete joint specimens of each group. by Zhezhe Zhang (19704587)

Numeric values used to generate all the graphs presented in the figures. by Wenjia Yu (9422059)

Madrasin decreases transcription of protein-coding genes. by Michael Tellier (8284752)

Rab5b is dispensable for the lytic cycle of <i>Toxoplasma gondii.</i> by Julia von Knoerzer-Suckow (22339771)

Madrasin decreases transcription of protein-coding genes. by Michael Tellier (8284752)

Amino acid metabolic pathways are influenced by the NC1 POM cycle over expression. by Bonnie A. McNeil (22331601)

Subjects:

<i>shk-1</i> mutants display decreased glycogen storage. by Longjun Pu (20685717)

Table 1_Dahongpao mother tree affects soil microbial community and nutrient cycling by increasing rhizosphere soil characteristic metabolite content.xlsx by Weiting Cheng (6852266)

The distribution of cell cycle phases of gingival fibroblasts cultured in the presence or absence of CsA. by Reiri Takeuchi (20460788)

Subjects:

Comprehensive Re, F1 and Pre values of FcaNet-CycleGAN model. by Xiaojun Wang (50332)

Effect of AGPAT3 downregulation on the mTORC1 signaling pathway. by Hadi Alizadeh (20854757)

Subjects:

Effect of AGPAT3 overexpression on mTORC1 signaling pathway. by Hadi Alizadeh (20854757)

Subjects:

Life-cycle boundary of the thermodynamic cycle. by Yali Wang (332169)

“…The results <a href="https://www.baidu.com/s?rsv_idx=1&tn=15007414_12_dg&wd=proves翻译&fenlei=256&usm=1&ie=utf-8&rsv_pq=f06398ff00987d3a&oq=prove&rsv_t=e735Ha0NuyAhPEhCR+rAjDMVIWE1C2sOZsORaFhddHALt4hKAB8hJ5Fu+jFo6KjaqQeiQ4M&sa=re_fy_huisou" target="_blank">prove</a> that, for S-KC, P-KC and DL-KC, the higher net power output (<i>W</i>_<i>net</i>) can be gained with decreasing condenser outlet temperature and regenerator temperature difference, and increasing evaporator temperature difference and superheat degree, the lower electricity production cost (<i>EPC</i>) can be acquired with decreasing condenser outlet temperature, evaporator temperature difference and regenerator temperature difference, while the less environment impact load (<i>EIL</i>) can be attained with decreasing condenser outlet temperature, regenerator temperature difference and basic ammonia concentration, and increasing superheat degree. …”

Characteristics of participants across NHANES 2007–2016 cycles. by Taihong Lv (19751385)