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Literature DB >> 33139941

Brain organoids for the study of human neurobiology at the interface of in vitro and in vivo.

Ilaria Chiaradia¹, Madeline A Lancaster².

Abstract

Brain development is an extraordinarily complex process achieved through the spatially and temporally regulated release of key patterning factors. In vitro neurodevelopmental models seek to mimic these processes to recapitulate the steps of tissue fate acquisition and morphogenesis. Classic two-dimensional neural cultures present higher homogeneity but lower complexity compared to the brain. Brain organoids instead have more advanced cell composition, maturation and tissue architecture. They can thus be considered at the interface of in vitro and in vivo neurobiology, and further improvements in organoid techniques are continuing to narrow the gap with in vivo brain development. Here we describe these efforts to recapitulate brain development in neural organoids and focus on their applicability for disease modeling, evolutionary studies and neural network research.

Entities: Chemical

Mesh：

Year: 2020 PMID： 33139941 DOI： 10.1038/s41593-020-00730-3

Source DB: PubMed Journal: Nat Neurosci ISSN： 1097-6256 Impact factor: 24.884

145 in total

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Journal: Development Date: 2000-12 Impact factor: 6.868

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Journal: Front Neuroanat Date: 2011-05-16 Impact factor: 3.856

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10. Altered proliferation and networks in neural cells derived from idiopathic autistic individuals.

Authors: Maria C Marchetto; Haim Belinson; Yuan Tian; Beatriz C Freitas; Chen Fu; Krishna Vadodaria; Patricia Beltrao-Braga; Cleber A Trujillo; Ana P D Mendes; Krishnan Padmanabhan; Yanelli Nunez; Jing Ou; Himanish Ghosh; Rebecca Wright; Kristen Brennand; Karen Pierce; Lawrence Eichenfield; Tiziano Pramparo; Lisa Eyler; Cynthia C Barnes; Eric Courchesne; Daniel H Geschwind; Fred H Gage; Anthony Wynshaw-Boris; Alysson R Muotri
Journal: Mol Psychiatry Date: 2016-07-05 Impact factor: 15.992

43 in total

Review 1. Genomics, convergent neuroscience and progress in understanding autism spectrum disorder.

Authors: Helen Rankin Willsey; A Jeremy Willsey; Belinda Wang; Matthew W State
Journal: Nat Rev Neurosci Date: 2022-04-19 Impact factor: 34.870

Review 2. Applications of Brain Organoids for Infectious Diseases.

Authors: Wenqiang Fan; Kimberly M Christian; Hongjun Song; Guo-Li Ming
Journal: J Mol Biol Date: 2021-09-15 Impact factor: 5.469

Review 3. Advances in profiling chromatin architecture shed light on the regulatory dynamics underlying brain disorders.

Authors: Brandon M Pratt; Hyejung Won
Journal: Semin Cell Dev Biol Date: 2021-09-03 Impact factor: 7.727

4. Mapping the hotspots for DNA repair synthesis in human brain organoids.

Authors: Tomohisa Kato; Alysson R Muotri
Journal: Cell Death Differ Date: 2021-08-31 Impact factor: 15.828

5. Nitric Oxide Attenuates Human Cytomegalovirus Infection yet Disrupts Neural Cell Differentiation and Tissue Organization.

Authors: Rebekah L Mokry; Benjamin S O'Brien; Jacob W Adelman; Suzette Rosas; Megan L Schumacher; Allison D Ebert; Scott S Terhune
Journal: J Virol Date: 2022-07-07 Impact factor: 6.549

6. DYRK1A regulates the bidirectional axonal transport of APP in human-derived neurons.

Authors: Iván Fernandez Bessone; Jordi Navarro; Emanuel Martinez; Karina Karmirian; Mariana Holubiec; Matias Alloatti; Livia Goto-Silva; Cayetana Arnaiz Yepez; Daniel Martins-de-Souza; Juliana Minardi Nascimento; Luciana Bruno; Trinidad M Saez; Stevens K Rehen; Tomás L Falzone
Journal: J Neurosci Date: 2022-07-08 Impact factor: 6.709