Insights into degradation and targeting of the photoreceptor channelrhodopsin-1.

In Chlamydomonas, the directly light-gated, plasma membrane-localized cation channels channelrhodopsins ChR1 and ChR2 are the primary photoreceptors for phototaxis. Their targeting and abundance is essential for optimal movement responses. However, our knowledge how Chlamydomonas achieves this is still at its infancy.

Multifactorial in vivo regulation of the photoreceptor channelrhodopsin-1 abundance.

Oriented movement (phototaxis) is an efficient way to optimize light-driven processes and to avoid photodamage for motile algae. In Chlamydomonas the receptors for phototaxis are the channelrhodopsins ChR1 and ChR2. Both are directly light-gated, plasma membrane-localized cation channels.

Channelrhodopsin-1 Phosphorylation Changes with Phototactic Behavior and Responds to Physiological Stimuli in .

The unicellular alga () exhibits oriented movement responses (phototaxis) to light over more than three log units of intensity. Phototaxis thus depends on the cell's ability to adjust the sensitivity of its photoreceptors to ambient light conditions. In , the photoreceptors for phototaxis are the channelrhodopsins (ChR)1 and ChR2; these light-gated cation channels are located in the plasma membrane.

Targeting of Photoreceptor Genes in via Zinc-Finger Nucleases and CRISPR/Cas9.

The fast-growing biflagellated single-celled chlorophyte is the most widely used alga in basic research. The physiological functions of the 18 sensory photoreceptors are of particular interest with respect to Chlamydomonas development and behavior. Despite the demonstration of gene editing in Chlamydomonas in 1995, the isolation of mutants lacking easily ascertained newly acquired phenotypes remains problematic due to low DNA recombination efficiency.

Proteomic Analysis of a Fraction with Intact Eyespots of Chlamydomonas reinhardtii and Assignment of Protein Methylation.

Flagellate green algae possess a visual system, the eyespot. In Chlamydomonas reinhardtii it is situated at the edge of the chloroplast and consists of two carotenoid rich lipid globule layers subtended by thylakoid membranes (TM) that are attached to both chloroplast envelope membranes and a specialized area of the plasma membrane (PM). A former analysis of an eyespot fraction identified 203 proteins.

Phototropin influence on eyespot development and regulation of phototactic behavior in Chlamydomonas reinhardtii.

The eyespot of Chlamydomonas reinhardtii is a light-sensitive organelle important for phototactic orientation of the alga. Here, we found that eyespot size is strain specific and downregulated in light. In a strain in which the blue light photoreceptor phototropin was deleted by homologous recombination, the light regulation of the eyespot size was affected.

The heme-binding protein SOUL3 of Chlamydomonas reinhardtii influences size and position of the eyespot.

The flagellated green alga Chlamydomonas reinhardtii has a primitive visual system, the eyespot. It is situated at the cells equator and allows the cell to phototax. In a previous proteomic analysis of the eyespot, the SOUL3 protein was identified among 202 proteins.

The power of functional proteomics: Components of the green algal eyespot and its light signaling pathway(s).

One of the key modifications of proteins that can affect protein functions, activities, stabilities, localizations and interactions, represents phosphorylation. For functional phosphoproteomics, phosphopeptides are enriched from isolated sub-cellular fractions of interest and analyzed by liquid chromatography-electrospray ionization-mass spectrometry. Such an approach was recently applied to the eyespot apparatus of the green flagellate alga Chlamydomonas reinhardtii, which represents a primordial visual system.

Chlamydomonas proteomics.

Chlamydomonas reinhardtii is a biflagellate and photosynthetic unicellular alga that has long fascinated scientists because it combines characteristics of both plants and animals. Chlamydomonas offers the simplicity of a unicellular organism that is amenable to genetic screening, molecular, and biochemical approaches, as well as to transformation of its nuclear, plastid, or mitochondrial genomes. Over the past decade, proteomics based studies of Chlamydomonas have provided major research contributions in the areas of photosynthesis, molecular biology, and evolution.

The green algal eyespot apparatus: a primordial visual system and more?

Most flagellate green algae exhibiting phototaxis posses a singular specialized light sensitive organelle, the eyespot apparatus (EA). Its design principles are similar in all green algae and produce, in conjunction with the movement pattern of the cell, a highly directional optical device. It enables an oriented movement response with respect to the direction and intensity of light.

The phosphoproteome of a Chlamydomonas reinhardtii eyespot fraction includes key proteins of the light signaling pathway.

Flagellate green algae have developed a visual system, the eyespot apparatus, which allows the cell to phototax. In a recent proteomic approach, we identified 202 proteins from a fraction enriched in eyespot apparatuses of Chlamydomonas reinhardtii. Among these proteins, five protein kinases and two protein phosphatases were present, indicating that reversible protein phosphorylation occurs in the eyespot.

Proteomic analysis of the eyespot of Chlamydomonas reinhardtii provides novel insights into its components and tactic movements.

Flagellate green algae have developed a visual system, the eyespot apparatus, which allows the cell to phototax. To further understand the molecular organization of the eyespot apparatus and the phototactic movement that is controlled by light and the circadian clock, a detailed understanding of all components of the eyespot apparatus is needed. We developed a procedure to purify the eyespot apparatus from the green model alga Chlamydomonas reinhardtii.

Subfractionation of eyespot apparatuses from the green alga Spermatozopsis similis: isolation and characterization of eyespot globules.

Despite the well-characterized function of the green-algal eyespot apparatus as a combined absorption/reflection screen for the photoreceptor for phototaxis, little is known about the proteins involved in the formation of this complex organelle. We therefore purified the carotenoid-rich lipid globules, which are the most conspicuous component of the eyespot sensu strictu from Spermatozopsis similis Preisig et Melkonian. Electron microscopy and an average carotenoid:chlorophyll ratio of 51, confirmed the high purity of the fraction.

A Ca(2+)- and voltage-modulated flagellar ion channel is a component of the mechanoshock response in the unicellular green alga Spermatozopsis similis.

In flagellate green algae, behavioral responses to photo- and mechanoshock are induced by different external stimuli within 10-15 ms. In the accompanying changes in flagella beat, Ca(2+) has important regulatory roles. Although the axonemal Ca(2+) responsive elements are well characterized, analyses of flagellar channels involved in Ca(2+) signalling as well as other ion channels at the single-channel level were not yet conducted in green algae.

A cDNA from the green alga Spermatozopsis similis encodes a protein with homology to the newly discovered Roadblock/LC7 family of dynein-associated proteins.

A clone, designated as B15, was isolated from a cDNA library of the unicellular green alga Spermatozopsis similis and characterised. The deduced amino acid sequence of its open reading frame exhibits high homology to members of the recently discovered roadblock/LC7 protein family (robl/LC7) of dynein-associated proteins. Homologies were highest to a robl/LC7-member from human testis (86%, identity 56%) and to the roadblock protein of Drosophila (88%, identity 52%).

Reflective properties of different eyespot types in dinoflagellates.

The reflective properties of different types of dinoflagellate eyespots were investigated using confocal laser scanning microscopy in the epireflection contrast mode. Although the eyespots studied differed with respect to localization (cytosol or plastid) and organization of the globule layer(s), all types effectively absorbed and reflected blue-green laser light (principal lines of 488/514 nm). The relative orientation of the eyespot surface towards the light source strongly influenced the reflective properties.

Receptor-mediated endocytosis is sensitive to antibodies against the uncoating ATPase (hsc70).

We have investigated the functional role of the coated vesicle-uncoating ATPase (UA), a cognate heat shock protein (hsc70), in receptor-mediated endocytosis. A monoclonal antibody against bovine brain UA/hsc70 was generated that recognizes a 26 kDa proteolytic fragment harbouring the putative clathrin-binding site. In vitro, this antibody blocked the UA/hsc70-mediated release of clathrin from isolated coated vesicles (CVs).

Novel touch-induced, Ca(2+)-dependent phobic response in a flagellate green alga.

The biflagellate green alga Spermatozopsis similis exhibits a remarkable avoidance reaction in addition to the photophobic or stop response characteristic of such algae. S. similis normally swims forward with its anteriorly attached flagella directed posteriorly and propagating sine-like waves base to tip.

Two members of the ERabp gene family are expressed differentially in reproductive organs but to similar levels in the coleoptile of maize.

A Zea mays cDNA clone, ZmERabp4, coding for a new member of the auxin-binding protein family was isolated. The primary amino acid sequence contains an N-terminal hydrophobic leader sequence, a potential glycosylation site (Asn136-Thr-Thr) and a C-terminal KDEL motif known to be responsible for retention of proteins within the lumen of the ER. The expression pattern of the ZmERabp4 gene in various organs of maize differs from the expression pattern previously observed for the ZmERabp1 gene.

Functional analysis of the eyespot in Chlamydomonas reinhardtii mutant ey 627, mt (-).

The function of the eyespot in phototaxis of the flagellate green alga Chlamydomonas reinhardtii Dangeard was studied using quantitative reflection confocal laser scanning microscopy and photoelectric measurements. The reflective properties of the eyespot and the photoreceptor current of the C. reinhardtii eyespot mutant ey 627, mt (-) were compared with those of Chlamydomonas strains possessing a well-developed eyespot.

Identification of 11-cis and all-trans-retinal in the photoreceptive organelle of a flagellate green alga.

Isolation of intact photoreceptive organelles (eyespot apparatuses) involved in blue-light mediated photoresponses in a flagellate green alga (Spermatozopsis similis) allowed for the first time the identification of both 11-cis- and all-trans-retinal in a plant cell. Both isomers were identified by HPLC analysis in conjunction with UV spectra. Additionally, reconstitution of a distinct absorption band, centered around 540 nm, was achieved by addition of exogenous 9-cis-retinal to bleached, isolated eyespot apparatuses.

Isolation and partial characterization of the photoreceptive organelle for phototaxis of a flagellate green alga.

We report on the isolation and purification of structurally intact eyespot apparatuses from the naked, biflagellate green alga Spermatozopsis similis. Two eyespot-enriched fractions, separated by sucrose gradient centrifugation, retained the typical reflective properties of eyespots in situ as demonstrated by reflection confocal laser scanning microscopy. Ultrastructurally, both fractions contained eyespot plates consisting of a single layer of lipid globules.

Endocytosis of human IgG:Fc receptor complexes by transfected BHK cells.

We have analyzed the mode of uptake of human beta FcRII molecules expressed in BHK cells (clone 2/14). When challenged with aggregated human IgG (ahIgG), these cells bind the ligand at 4 degrees C and endocytose the IgG: receptor complexes rapidly upon warming to 37 degrees C, as seen by fluorescence microscopy with antibodies directed against human IgG. Using 125I-labeled ahIgG, we found that 40% of the bound ligand was internalized within 15 min, and approximately 60% within 2 h.

Reflection confocal laser scanning microscopy of eyespots in flagellated green algae.

The reflection properties of different types of eyespots in three unicellular, flagellated green algae (Tetraselmis chui, Chlamydomonas eugametos, Hafniomonas reticulata) were investigated using confocal laser scanning microscopy in the epireflection mode. The eyespots differed with respect to the number of eyespot lipid globule layers and surface appearance (concave/convex). A strong reflection signal was observed in all eyespots, and a detailed quantitative analysis by optical xy (horizontal) and xz (vertical) sectioning was performed.

Stromal free calcium concentration and light-mediated activation of chloroplast fructose-1,6-bisphosphatase.

Light-mediated activation of fructose-1,6-bisphosphatase (EC 3.1.3.