Prediction of gene expression in embryonic structures of Drosophila melanogaster. by Anastasia A Samsonova, Mahesan Niranjan, Steven Russell, Alvis Brazma

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Modelling Functional Thyroid Follicular Structures Using P19 Embryonal Carcinoma Cells by Fatimah Najjar, Liming Milbauer, Chin-Wen Wei, Thomas Lerdall, Li-Na Wei

“…These thyrocytes further maturate to form follicle-like structures expressing and accumulating thyroglobulin that can be secreted into the medium upon TSH stimulation. …”
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EMBRYONIC AND FETAL HISTOMORPHOLOGICAL DIFFERENTIATION OF THE OCULAR STRUCTURES IN SPRAGUE DAWLEY RAT (Rattus norvegicus) by Masarat S. Al mayahi, Azhar Saleem Khalaf, F.J. Al-Saffar

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Study of the enteric and motor inervation, pelvic musculature, and alterations in the sacral region of rat fetuses with ethylenethiourea-induced anorectal anomaly by Evandro Luis da Cunha Oliveira, Yvone Avalone de Moraes Villela de Andrade Vicente

Subjects: “…Embryonic Structures…”
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Sex differences in placental structure and gene expression in ICR mice during embryonic development by Xinyi Man, Noriyoshi Usui, Miyuki Doi, Shoichi Shimada

“…Abstract The placenta is a vital organ for fetal development, providing structural support and mediating both nutrient exchange and maternal–fetal immune interactions. …”
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Domain-specific AI segmentation of IMPDH2 rod/ring structures in mouse embryonic stem cells by Samuel T. M. Ball, Meagan J. Hennessy, Yuhan Tan, Kai F. Hoettges, Neil D. Perkins, David J. Wilkinson, Michael R. H. White, Yalin Zheng, David A. Turner

“…Abstract Background Inosine monophosphate dehydrogenase 2 (IMPDH2) is an enzyme that catalyses the rate-limiting step of guanine nucleotides. In mouse embryonic stem cells (ESCs), IMPDH2 forms large multi-protein complexes known as rod-ring (RR) structures that dissociate when ESCs differentiate. …”
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Light microscopic investigations on the embryonic development of chicken bursa fabricii by Nazlı Kocaöz, İlhami Çelik, Sadettin Ünsal

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The splicing factor Acin1 is essential for embryonic development but has limited effects on muscle structure and homeostasis by Mamoru Aoto, Hiroshi Sakai, Naohito Tokunaga, Mei Miyazaki, Takeshi Kiyoi, Nobutaka Ohkubo, Yuuki Imai, Noriaki Mitsuda

“…These findings suggest that Acin1 is essential for embryonic development and has limited effects on muscle structure and homeostasis via its regulation of gene expression and alternative splicing.…”
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PARG Mutation Uncovers Critical Structural Determinant for Poly(ADP-Ribose) Hydrolysis and Chromatin Regulation in Embryonic Stem Cells by Yaroslava Karpova, Sara Piatz, Guillaume Bordet, Alexei V. Tulin

“…While PARP function has been extensively studied, the structural and mechanistic basis of PARG-mediated pADPr degradation remain incompletely understood. …”
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Impact of storage period on hatching egg quality, extra-embryonic structures, embryo morphometry, hatchability, and Rosa 1 chick quality by J. Biesek, S. Wlaźlak, Z. Brzycka, W. Ragus, M. Adamski

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Patterns of hypoglossal nucleus development in the prenatal period of human ontogenesis: a morphometric study by V. O. Tyholaz

Subjects: “…Embryonic Structures…”
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Embryological understanding of fascial structures related to total mesorectal excision by Sun Yiming, Guan Helong, Sun Lingyu

“…Here, we sort out the embryonic development of rectum, anus, mesorectum, retrorectal space and pelvic fasciae as well as reviews the related clinical controversies, in order to provide a reference for young surgeon to correctly understand the anatomical structure of pelvic fasciae and adjacent organs of rectum and to perform TME with higher quality.…”
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Characterization of novel human endogenous retrovirus structures on chromosomes 6 and 7 by Nicholas Pasternack, Nicholas Pasternack, Ole Paulsen, Avindra Nath

“…While the reference genome for both regions suggests these two loci are structurally dissimilar, we found that for both loci about 5% of individuals have a unique tandem repeat-like sequence (three long terminal repeat sequences sandwiching two internal, potentially protein coding sequences), while most individuals have a standard proviral structure (one internal region sandwiched by two long terminal repeats). …”
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Research progress in retinal structural alterations in patients with mental disorders by WANG Sijia, WEI Yanyan, QIAN Zhenying, LI Qingwei, WANG Jijun

“…It is established that the retina is part of the central nervous system (CNS), which extends from the mesencephalon and develops concurrently with the brain during the embryonic period. Given the overlapping pathophysiological mechanisms between neurodegenerative diseases and mental disorders, studying the structural and functional changes in the inner layers of the retina has emerged as a new direction in mental health research. …”
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Ovarian structure and follicular dynamics of Liolaemus azarai (Squamata: Liolaemidae) by Belén Arrieta MBA, María Teresa Sandoval, Blanca Beatriz Alvarez

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Comparison of the Structure and Activity of Glycosylated and Aglycosylated Human Carboxylesterase 1. by Victoria Arena de Souza, David J Scott, Joanne E Nettleship, Nahid Rahman, Michael H Charlton, Martin A Walsh, Raymond J Owens

“…To analyse the role of the single N-linked glycan on the structure and activity of the enzyme, authentically glycosylated and aglycosylated hCES1, generated by mutating asparagine 79 to glutamine, were produced in human embryonic kidney cells. …”
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Physiological roles of embryonic microglia and their perturbation by maternal inflammation by Tsukasa Shimamura, Masashi Kitashiba, Kazutaka Nishizawa, Yuki Hattori

“…Previous studies have demonstrated that microglia contribute to this highly orchestrated process, ensuring the proper organization of brain structure. These findings underscore the need to further investigate how microglia behave and function within a broader framework of neurodevelopment. …”
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Detecting global and local hierarchical structures in cell-cell communication using CrossChat by Xinyi Wang, Axel A. Almet, Qing Nie

“…By applying our method to two nonspatial scRNA-seq datasets sampled from COVID-19 patients and mouse embryonic skin, and two spatial transcriptomics datasets generated from Stereo-seq of mouse embryo and 10x Visium of mouse wounded skin, we showcase CrossChat’s functionalities for analyzing both global and local hierarchical structures within cell-cell communication.…”
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FlashTag-mediated Labeling for Intraventricular Macrophages in the Embryonic Brain by Hisa Asai, Mizuki Ono, Takaki Miyata, Yuki Hattori

“…The fate mapping technique is essential for understanding how cells differentiate and organize into complex structures. Various methods are used in fate mapping, including dye injections, genetic labeling (e.g., Cre-lox recombination systems), and molecular markers to label cells and track their progeny. …”
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Mouse embryonic retina delivers information controlling cortical neurogenesis. by Ciro Bonetti, Enrico Maria Surace

“…Furthermore, early perturbation of retinal spontaneous activity leads to changes of cortical layer structure at a later time point. These data suggest that mouse embryonic retina delivers long-distance information capable of modulating cell genesis in the developing visual cortex and that spontaneous activity is the candidate long-distance acting extrinsic cue mediating this process. …”
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