Nutrition and brain development by A. Mendoza-Salonga

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Nutrition and brain development by Aida Mendoza-Salonga

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Cannabis, Endocannabinoids and Brain Development: From Embryogenesis to Adolescence by Ricardo J. Rodrigues, Joana M. Marques, Attila Köfalvi

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Widespread splicing changes in human brain development and aging by Pavel Mazin, Jieyi Xiong, Xiling Liu, Zheng Yan, Xiaoyu Zhang, Mingshuang Li, Liu He, Mehmet Somel, Yuan Yuan, Yi‐Ping Phoebe Chen, Na Li, Yuhui Hu, Ning Fu, Zhibin Ning, Rong Zeng, Hongyi Yang, Wei Chen, Mikhail Gelfand, Philipp Khaitovich

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Impact of ATF6 deletion on the embryonic brain development by Loc Dinh Nguyen, Ly Huong Nguyen, Dat Xuan Dao, Tsuyoshi Hattori, Mika Takarada-Iemata, Hiroshi Ishii, Takashi Tamatani, Hiroshi Kawasaki, Yohei Shinmyo, Kenta Onoue, Shigenobu Yonemura, Jun Zhang, Masato Miyake, Seiichi Oyadomari, Kazutoshi Mori, Osamu Hori

“…Summary: Although the unfolded protein response (UPR) is activated during brain development, its roles remain unclear. Here, we report that deletion of activating transcription factor 6 (ATF6), consisting of ATF6α and ATF6β, in the developing brain caused microcephaly and neonatal death in mice. …”
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Role of iron in brain development, aging, and neurodegenerative diseases by Qiqi Gao, Yiyang Zhou, Yu Chen, Wei Hu, Wenwen Jin, Chunting Zhou, Hao Yuan, Jianshun Li, Zhenlang Lin, Wei Lin

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The role of nutrition and gut microbiome in childhood brain development and behavior by Yue Jiang, Yuanyuan Li

Subjects: “…brain development…”
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Transcriptomic sex differences in early human fetal brain development by Federica Buonocore, Jenifer P. Suntharalingham, Olumide K. Ogunbiyi, Aragorn Jones, Nadjeda Moreno, Paola Niola, Tony Brooks, Nita Solanky, Mehul T. Dattani, Ignacio del Valle, John C. Achermann

“…Taken together, our data suggest that limited but potentially important sex differences occur during early human fetal brain development.…”
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How early olfactory experiences influence brain development in mice by Hirofumi Nishizumi

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Immunoglobulin superfamily 3 (Igsf3) function is dispensable for brain development by Carolina Cocito, Chaomei Xiang, Meng Huang, Tatyana Gongora, Pallavi Surana, Ramana Davuluri, Nadia Dahmane, Jeffrey P. Greenfield

“…Remaining unexplored is the physiological role of IGSF3 in regulating brain development, including neocortical development. We generated an Igsf3 knockout (KO) mouse using a CRISPR/Cas9-based approach and explored the function of Igsf3 in regulating cortical development. …”
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Brain Organoids: Studying Human Brain Development and Diseases in a Dish by Jie Xu, Zhexing Wen

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Systemic stimulation of TLR2 impairs neonatal mouse brain development. by Xiaonan Du, Bobbi Fleiss, Hongfu Li, Barbara D'angelo, Yanyan Sun, Changlian Zhu, Henrik Hagberg, Ofer Levy, Carina Mallard, Xiaoyang Wang

“…The aim of this study was to investigate the potential effect of a TLR2 agonist on neonatal brain development.<h4>Methodology/principal findings</h4>Mice were injected intraperitoneally (i.p.) once a day from postnatal day (PND) 3 to PND11 with endotoxin-free saline, a TLR2 agonist Pam(3)CSK(4) (5 mg/kg) or Lipopolysaccharide (LPS, 0.3 mg/kg). …”
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Zebrafish glial-vascular interactions progressively expand over the course of brain development by Lewis G. Gall, Courtney M. Stains, Moises Freitas-Andrade, Bill Z. Jia, Nishi Patel, Sean G. Megason, Baptiste Lacoste, Natasha M. O’Brown

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Prenatal environmental exposures and brain development: studies with baboons and other nonhuman primates by Igor Y. Iskusnykh, Shiwani Thapa, Victor V. Chizhikov, Anna N. Bukiya

“…We further examine the impact of environmental insults on fetal brain development, including air pollution, infection, ionizing radiation, and exposure to toxicants, and highlight the ways in which these factors can disrupt brain development and neural circuitry, leading to long-term cognitive and behavioral deficits. …”
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LIS1 and DCX: Implications for Brain Development and Human Disease in Relation to Microtubules by Orly Reiner

“…Here, we will review normal processes of brain development and neuronal migration, describe neuronal migration diseases, and will focus on the microtubule-associated functions of LIS1 and DCX, which participate in the regulation of neuronal migration and are involved in the human developmental brain disease, lissencephaly.…”
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Microglia in the aged brain develop a hypoactive molecular phenotype after surgery by Zhuoran Yin, Anna K. Leonard, Carl M. Porto, Zhongcong Xie, Sebastian Silveira, Deborah J. Culley, Oleg Butovsky, Gregory Crosby

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Co-methylation networks associated with cognition and structural brain development during adolescence by Dawn Jensen, Dawn Jensen, Jiayu Chen, Jiayu Chen, Jessica A. Turner, Julia M. Stephen, Yu-Ping Wang, Tony W. Wilson, Vince D. Calhoun, Vince D. Calhoun, Vince D. Calhoun, Vince D. Calhoun, Vince D. Calhoun, Jingyu Liu, Jingyu Liu, Jingyu Liu

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Weaving Invisible Threads: The Impact of Caregiver Trauma on Parenting and Child Brain Development by Manessa Riser, Christopher Trentacosta, Tanja Jovanovic

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Intergenerational and transgenerational effects of endocrine-disrupting chemicals in the offspring brain development and behavior by Glaecir Roseni Mundstock Dias, Fabiana Cardoso Vilela Giusti, Cíntia Onofra de Novais, Maria Aparecida Lima de Oliveira, Alexandre Giusti Paiva, Bruna Kalil-Cutti, Megan M. Mahoney, Jones Bernardes Graceli, Jones Bernardes Graceli

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FOXR1 regulates stress response pathways and is necessary for proper brain development. by Andressa Mota, Hannah K Waxman, Rui Hong, Gavin D Lagani, Sheng-Yong Niu, Féodora L Bertherat, Lynne Wolfe, Christine May Malicdan, Thomas C Markello, David R Adams, William A Gahl, Christine S Cheng, Uwe Beffert, Angela Ho

“…Further examination of newborn Foxr1 knockout brains revealed a decrease in cortical thickness and enlarged ventricles compared to littermate wild-type mice, suggesting that loss of Foxr1 leads to atypical brain development. Combined, these results suggest FOXR1 plays a role in cellular stress response pathways and is necessary for normal brain development.…”
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