Research status and prospects of intrinsically photosensitive retinal ganglion cells / 国际眼科杂志(Guoji Yanke Zazhi)

A brand-new class of photoreceptors has been identified in the past 20a: intrinsically photosensitive retinal ganglion cells(ipRGC). With melanopsin as its photopigment, ipRGCs transmit light signals to non-imaging brain regions like the suprachiasmatic nucleus(SCN)and the olivary pretectal nucleus(OPN)to regulate circadian photoentrainment and pupillary light reflex; a small portion of the signals are projected to brain imaging regions like the dorsal lateral geniculate nucleus(dLGN)and superior colliculus(SC), to participate in imaging vision. There are six different ipRGC subtypes(M1～M6), each with its own morphological and physiological characteristics. In addition to receiving signaling inputs from the rods and cones, ipRGCs also regulate retinal signals through chemical and electrical synapses and play important roles in visual signaling and visual development. It has been discovered that ipRGCs are implicated in several systemic and ocular illnesses. Overall, various aspects of ipRGC are reviewed including the discovery, general physiological properties, signaling, and the relationship with disease in this work.

Application of fiber photometry in neuroscience research / 生理学报

In recent years, fiber photometry has been widely used in the field of neuroscience as an important technique for recording the activity of neurons in the specific nuclei of freely moving animal. This review summarized the application of single-channel, multi-channel, and multi-color fiber photometry techniques in the neuroscience research of cognition, behavior, psychology and neurological diseases. In addition, it briefly introduced the applications of fiber photometry combined with functional magnetic resonance imaging technology, and fiber photometry combined with probe technology in the neuroscience research.

A review of behavioral visual acuity tests for rodents / 国际眼科杂志(Guoji Yanke Zazhi)

·Rodents have been used widely in the research of eye diseases to study visual function in animal models. Two methods of visual acuity testing in animals have been internationally recognized:the electrophysiological visual acuity test and the behavioral visual acuity test. Both of these methods have their advantages and limitations. The electrophysiology test (visual evoked potential) is invasive, and animals need recovery time after being implanted with electrodes. Also,the electrophysiological visual acuity test only reflects the electrical activity of a single cell or nuclei, it does not reflect the overall visual function of the animal. The widely used behavioral visual acuity test is able to compensate for these limitations. This paper gives a brief overview of the methods of the behavioral visual acuity test for rodents (rats, mice, guinea pigs,etc.).