Contreras E, Liang C, Mahoney HL, Javier JL, Luce ML, Labastida Medina K, Bozza T, Schmidt TM (2024) Flp-recombinase mouse line for genetic manipulation of ipRGCs. bioRxiv doi: 10.1101/2024.05.06.592761 PMID: 38766000

Objective: To report the generation and characterization of a new mouse line (Opn4FlpO), in which FlpO is expressed from the Opn4 locus, to manipulate the melanopsin-expressing, intrinsically photosensitive retinal ganglion cells.

Summary: The Opn4FlpO mouse line drives Flp-recombinase expression specifically within ipRGCs, with robust recombination in M1-M3 ipRGC subtypes. This model is a valuable tool for investigating these retinal cells’ physiological and behavioral roles.

Usage: Retinal histology (1:2000 dilution) (AB-N38).

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Fitzpatrick MJ, Krizan J, Hsiang JC, Shen N, Kerschensteiner D (2024) A pupillary contrast response in mice and humans: Neural mechanisms and visual functions. Neuron doi: 10.1016/j.neuron.2024.04.012 PMID: 38697114

Objective: To show that temporal contrast drives pupil constriction through a cell-type-specific retinal circuit in mice and humans.

Summary: The pupillary contrast response enhances high spatial frequency contrast in retinal images and improves visual acuity.

Usage: Immunohistochemistry (1:2000) (Cat: AB-N38).

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Nord C, Jones I, Garcia-Maestre M, Hägglund AC, Carlsson L (2024) Reduced mTORC1-signaling in progenitor cells leads to retinal lamination deficits. Dev Dyn doi: 10.1002/dvdy.707 PMID: 38546215

Objective: To demonstrate that mTORC1 mediates critical roles during neuronal lamination using the mouse retina as a model system.

Summary: This study establishes a critical role for mTORC1-signaling during retinal lamination and demonstrates that this pathway regulates diverse developmental mechanisms involved in driving the stratified arrangement of neurons during CNS development.

Usage: Immunohistochemistry (AB-N38) (1:1000).

Related Products: Melanopsin Rabbit Polyclonal (Cat. #AB-N38)

Qian C, Xin Y, Qi C, Wang H, Dong BC, Zack DJ, Blackshaw S, Hattar S, Zhou FQ, Qian J (2024) Intercellular communication atlas reveals Oprm1 as a neuroprotective factor for retinal ganglion cells. Nat Commun 15(1):2206. doi: 10.1038/s41467-024-46428-z PMID: 38467611

Objective: To explore how intercellular communication contributes to retinal ganglion cell (RGC) survival following optic nerve crush based on single-cell RNA-seq analysis.

Summary: The overall scores of the responsive interactions among the retinal cell types correlated with the distress interactions sent from RGCs.

Usage: Immunohistochemistry (1:500; AB-N38).

Related Products: Melanopsin Rabbit Polyclonal (Cat. #AB-N38)

Maloney R, Quattrochi L, Yoon J, Souza R, Berson D (2024) Efficacy and specificity of melanopsin reporters for retinal ganglion cells. J Comp Neurol 532(2):e25591. doi: 10.1002/cne.25591 PMID: 38375612

Objective: To evaluate the precision and comprehensiveness of various labeling methods for intrinsically photosensitive retinal ganglion cells (ipRGCs).

Summary: The authors provide a comparative analysis of the strengths and limitations of each approach and highlight the need for tailored methods based on specific research applications.

Usage: Immunohistochemistry (1:10,000) (AB-N38).

Related Products: Melanopsin Rabbit Polyclonal (Cat. #AB-N38)

Matcham AC, Toma K, Tsai NY, Sze CJ, Lin PY, Stewart IF, Duan X (2024) Cadherin-13 Maintains Retinotectal Synapses via Transneuronal Interactions. J Neurosci 44(5):e1310232023. doi: 10.1523/JNEUROSCI.1310-23.2023 PMID: 38123991

Objective: To explore the role of Type II cadherins, particularly Cdh13, in the formation of specific retinotectal synapses.

Summary: Cdh13 is highly expressed in wide-field neurons of the superficial superior colliculus (sSC), and its removal from presynaptic retinal ganglion cells (RGCs) leads to a significant reduction in dendritic spines on postsynaptic wide-field neurons. Unlike αRGCs and On–Off Direction-Selective Ganglion Cells (ooDSGCs), Cdh13-expressing RGCs utilize distinct mechanisms to establish precise retinotectal connections.

Usage: Immunohistochemistry (1:500).

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Brock O, Gelegen CE, Sully P, Salgarella I, Jager P, Menage L, Mehta I, Jęczmień-Łazur J, Djama D, Strother L, Coculla A, Vernon A, Brickley S, Holland P, Cooke S, Delogu A (2022) A role for thalamic projection GABAergic neurons in circadian responses to light. J Neurosci 42(49):9158-9179. doi: 10.1523/JNEUROSCI.0112-21.2022 PMID: 36280260

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Negueruela S, Morenilla C, Herrera M, Coca Y, Florez-Paz D, López-Cascales MT, Gomis A, Herrera E (2022) Perinatal correlated retinal activity is required for the wiring of visual axons in non-image forming nuclei. bioRxiv 2022.07.27.501692. doi: 10.1101/2022.07.27.501692

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Sabbah S, Papendorp C, Behrendt I, Rasras H, Cann J, Leyrer ML, Koplas E, Beltoja M, Etebari C, Gunesch AN, Carrete L, Kim MT, Manoff G, Bhatia-Lin A, Zhao T, Dowling H, Briggman KL, Berson DM (2022) Intrinsically photosensitive retinal ganglion cells evade temporal filtering to encode environmental light intensity. bioRxiv 2022.04.09.487733. doi: 10.1101/2022.04.09.487733

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Brodie-Kommit J, Clark BS, Shi Q, Shiau F, Kim DW, Langel J, Sheely C, Ruzycki PA, Fries M, Javed A, Cayouette M, Schmidt T, Badea T, Glaser T, Zhao H, Singer J, Blackshaw S, Hattar S (2021) Atoh7-independent specification of retinal ganglion cell identity. Sci Adv 7(11):eabe4983. doi: 10.1126/sciadv.abe4983 PMID: 33712461

Related Products: Melanopsin Rabbit Polyclonal (Cat. #AB-N38)