Drosophila melanogaster

Drosophila melanogaster (Black-bellied Dew-lover) a dipteran (two-winged) insect, is the species of fruit fly that is commonly used in genetic experiments; it is among the most important model organisms. In modern biological literature, it is often simply called Drosophila or (common) fruit fly. Students also nickname it Drozzy.

Vision in Drosophila

The compound eye of the fruit fly contains 800 unit eyes or ommatidia, and are one of the most advanced among insects. Each ommatidium contains 8 photoreceptor cells (R1-8), support cells, pigment cells, and a cornea. Wild-type flies have reddish pigment cells, which serve to absorb excess blue light so the fly isn't blinded by ambient light.

Related Topics:
Compound eye - Ommatidia

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Each photoreceptor cell consists of two main sections, the cell body and the rhabdomere. The cell body contains the nucleus while the rhabdomere is made up of toothbrush-like stacks of membrane called microvilli. Each microvillus is 1 mm to 1.5 mm in length and 50 nm in diameter. The membrane of the rhabdomere is packed with about 100 million rhodopsin molecules, the visual protein that absorbs light. The rest of the visual proteins are also tightly packed into the microvillar space, leaving little room for cytoplasm.

Related Topics:
Nucleus - Microvilli - Nm - Rhodopsin - Cytoplasm

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The photoreceptors in Drosophila express a variety of rhodopsin isoforms. The R1-R6 photoreceptor cells express Rhodopsin1 (Rh1) which absorbs blue light (480 nm). The R7 and R8 cells express a combination of either Rh3 or Rh4 which absorb UV light (345 nm and 375 nm), and Rh5 or Rh6 which absorb blue (437 nm) and green (508 nm) light respectively. Each rhodopsin molecule consists of an opsin protein covalently linked to a carotenoid chromophore, 11-cis-3-hydroxyretinal.3

Related Topics:
Rhodopsin - Isoforms - Carotenoid

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As in vertebrate vision, visual transduction in invertebrates occurs via a G protein-coupled pathway. However, in vertebrates the G protein is transducin, while the G protein in invertebrates is Gq (dgq in Drosophila). When rhodopsin (Rh) absorbs a photon of light its chromophore, 11-cis-3-hydroxyretinal, is isomerized to all-trans-3-hydroxyretinal. Rh undergoes a conformational change into its active form, metarhodopsin. Metarhodopsin activates Gq, which in turn activates a phospholipase Cβ (PLCβ) known as NorpA.

Related Topics:
Vertebrate vision - Invertebrate - Vertebrates - G protein - Rhodopsin - Photon - Phospholipase

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PLCβ hydrolyzes phosphoinositol-4,5-bisphosphate (PIP2), a phospholipid found in the cell membrane, into soluble inositol triphosphate (IP3) and diacylgycerol (DAG), which stays in the cell membrane. DAG or a derivative of DAG causes a calcium selective ion channel known as TRP (transient receptor potential) to open and calcium and sodium flows into the cell. IP3 is thought to bind to IP3 receptors in the subrhabdomeric cisternae, an extension of the endoplasmic reticulum, and cause release of calcium, but this process doesn't seem to be essential for normal vision.4

Related Topics:
Phosphoinositol-4,5-bisphosphate - Phospholipid - Cell membrane - Inositol triphosphate - Diacylgycerol - Calcium - Ion channel - TRP - Sodium - IP₃ receptors - Subrhabdomeric cisternae - Endoplasmic reticulum

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Calcium binds to proteins such as calmodulin (CaM) and an eye-specific protein kinase C (PKC) known as InaC. These proteins interact with other proteins and have been shown to be necessary for shut off of the light response. In addition, proteins called arrestins bind metarhodopsin and prevent it from activating more Gq.

Related Topics:
Calcium - Calmodulin - Protein kinase C - Arrestin

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A potassium-dependent sodium/calcium exchanger known as NCKX30C pumps the calcium out of the cell. It uses the inward sodium gradient and the outward potassium gradient to extrude calcium at a stoichiometry of 4 Na+/ 1 Ca++, 1 K+.5

Related Topics:
Potassium - Sodium/calcium exchanger - Calcium - Stoichiometry

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TRP, InaC, and PLC form a signaling complex by binding a scaffolding protein called InaD. InaD contains five binding domains called PDZ domains which specifically bind the C termini of target proteins. Disruption of the complex by mutations in either the PDZ domains or the target proteins reduces the efficiency of signaling. For example, disruption of the interaction between InaC, the protein kinase C, and InaD results in a delay in inactivation of the light response.

Related Topics:
PDZ domains - Light response

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Unlike vertebrate metarhodopsin, invertebrate metarhodopsin can be converted back into rhodopsin by absorbing a photon of orange light (580 nm).

Related Topics:
Vertebrate - Invertebrate - Rhodopsin - Photon

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Approximately two-thirds of the Drosophila brain (about 200,000 neurons total) is dedicated to visual processing. Although the spatial resolution of their vision is significantly worse than that of humans, their temporal resolution is approximately ten times better.

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