Martin M Riccomagno
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Explore the profile of Martin M Riccomagno including associated specialties, affiliations and a list of published articles.
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14
Citations
578
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Recent Articles
1.
Protocol for the longitudinal study of neuroinflammation and reactive astrocytes in Lcn2CreERT2 mice
Ubina T, Agnew-Svoboda W, Figueroa Z, Wilson E, Fiacco T, Riccomagno M
STAR Protoc
. 2024 Sep;
5(4):103322.
PMID: 39305485
During brain disease, astrocytes can reprogram into a reactive state that alters many of their functions. Here, we present a protocol for studying neuroinflammation and reactive astrogliosis in mice using...
2.
Wong W, Estep J, Treptow A, Rajabli N, Jahncke J, Ubina T, et al.
PLoS Biol
. 2023 Aug;
21(8):e3002212.
PMID: 37540708
The mature mammalian cortex is composed of 6 architecturally and functionally distinct layers. Two key steps in the assembly of this layered structure are the initial establishment of the glial...
3.
Estep J, Sun L, Riccomagno M
Heliyon
. 2023 Apr;
9(4):e15282.
PMID: 37089315
Integrin Adhesion Complexes (IACs) serve as links between the cytoskeleton and extracellular environment, acting as mechanosensing and signaling hubs. As such, IACs participate in many aspects of cellular motility, tissue...
4.
Agnew-Svoboda W, Ubina T, Figueroa Z, Wong Y, Vizcarra E, Roebini B, et al.
Cell Rep Methods
. 2022 Sep;
2(8):100276.
PMID: 36046623
Astrocytes are vital support cells that ensure proper brain function. In brain disease, astrocytes reprogram into a reactive state that alters many of their cellular roles. A long-standing question in...
5.
Ubina T, Vahedi-Hunter T, Agnew-Svoboda W, Wong W, Gupta A, Santhakumar V, et al.
J Cell Sci
. 2021 Sep;
134(20).
PMID: 34515305
The advent of modern single-cell biology has revealed the striking molecular diversity of cell populations once thought to be more homogeneous. This newly appreciated complexity has made intersectional genetic approaches...
6.
Vahedi-Hunter T, Estep J, Rosette K, Rutlin M, Wright K, Riccomagno M
Sci Rep
. 2018 Apr;
8(1):5996.
PMID: 29662228
Development of complex neural circuits like the peripheral somatosensory system requires intricate mechanisms to ensure axons make proper connections. While much is known about ligand-receptor pairs required for dorsal root...
7.
Estep J, Wong W, Wong Y, Loui B, Riccomagno M
Sci Rep
. 2018 Jan;
8(1):680.
PMID: 29330522
During mammalian cerebellar development, postnatal granule cell progenitors proliferate in the outer part of the External Granule Layer (EGL). Postmitotic granule progenitors migrate tangentially in the inner EGL before switching...
8.
Riccomagno M, Kolodkin A
Annu Rev Cell Dev Biol
. 2015 Oct;
31:779-805.
PMID: 26436703
The assembly of functional neural circuits requires the combined action of progressive and regressive events. Regressive events encompass a variety of inhibitory developmental processes, including axon and dendrite pruning, which...
9.
Riccomagno M, Sun L, M Brady C, Alexandropoulos K, Seo S, Kurokawa M, et al.
Neuron
. 2014 Feb;
81(4):779-86.
PMID: 24559672
Stratification of retinal neuronal cell bodies and lamination of their processes provide a scaffold upon which neural circuits can be built. However, the molecular mechanisms that direct retinal ganglion cells...
10.
Riccomagno M, Hurtado A, Wang H, Macopson J, Griner E, Betz A, et al.
Cell
. 2012 Jun;
149(7):1594-606.
PMID: 22726444
Axon pruning and synapse elimination promote neural connectivity and synaptic plasticity. Stereotyped pruning of axons that originate in the hippocampal dentate gyrus (DG) and extend along the infrapyramidal tract (IPT)...