''Chromera velia'', also known as a "chromerid", is a unicellular photosynthetic organism in the superphylum Alveolata. It is of interest in the study of apicomplexan parasites, specifically their evolution and accordingly, their unique vulnerabilities to drugs. The discovery of ''C. velia'' has sparked renewed interest in

protist A protist () is any eukaryotic organism (that is, an organism whose cells contain a cell nucleus) that is not an animal, plant, or fungus. While it is likely that protists share a common ancestor (the last eukaryotic common ancestor), the exc ...

research, concerning both algae and parasites, as well as free-living unicells. Strict separation of botanical protists ( algae) and zoological protists ( protozoa) has been conventional but ''C. velia'' may be regarded as a good example of a bridge linking both categories. ''C. velia'' has typical features of alveolates, being phylogenetically related to

Apicomplexa The Apicomplexa (also called Apicomplexia) are a large phylum of parasitic alveolates. Most of them possess a unique form of organelle that comprises a type of non-photosynthetic plastid called an apicoplast, and an apical complex structure. Th ...

(a subgroup of alveolates), and contains a photosynthetic plastid ( chloroplast) while the apicomplexans have a non-photosynthetic plastid called the

apicoplast An apicoplast is a Synapomorphy, derived non-photosynthetic plastid found in most Apicomplexa, including ''Toxoplasma gondii'', and ''Plasmodium falciparum'' and other ''Plasmodium'' spp. (parasites causing malaria), but not in others such as ''Cry ...

. ''C. velia'' is also related to another subgroup of alveolates, the

dinoflagellates The dinoflagellates (Greek δῖνος ''dinos'' "whirling" and Latin ''flagellum'' "whip, scourge") are a monophyletic group of single-celled eukaryotes constituting the phylum Dinoflagellata and are usually considered algae. Dinoflagellates a ...

of which most are photosynthetic. ''C. velia'' uses metabolites (reduced carbon) from its plastid as its primary energy source. The same is true of the algal cousin of ''C. velia'', another chromerid '' Vitrella brassicaformis''. Together these are phylogenetically the closest known

autotroph An autotroph or primary producer is an organism that produces complex organic compounds (such as carbohydrates, fats, and proteins) using carbon from simple substances such as carbon dioxide,Morris, J. et al. (2019). "Biology: How Life Wo ...

ic organisms to apicomplexans. Parasites in the apicomplexan genus ''

Plasmodium ''Plasmodium'' is a genus of unicellular eukaryotes that are obligate parasites of vertebrates and insects. The life cycles of ''Plasmodium'' species involve development in a blood-feeding insect host which then injects parasites into a ver ...

'' are the causative agents of

malaria Malaria is a mosquito-borne infectious disease that affects humans and other animals. Malaria causes symptoms that typically include fever, tiredness, vomiting, and headaches. In severe cases, it can cause jaundice, seizures, coma, or death. S ...

. Studies of ''C. velia'' and ''V. brassicaformis'' are broadly useful for understanding the biochemistry, physiology and evolution of the malaria parasite, other apicomplexan parasites, and dinoflagellates.

Plastid terminology

"Apicoplast" is a specialised word, derived from the word "plastid". Initially the word plastid was more suitable than "chloroplast" when describing organelles of apparent algal descent in any protist, but that lack any chlorophyll or light absorbing pigment. Those found in apicomplexan parasites are a prominent example. The majority of members of the apicomplexan lineage still contain a genome in the plastid, indicating the organelle of the lineage's ancestors was once photosynthetic, but these plastids have no light absorbing pigments or light reaction machinery. While ''Chromera velia'' contains a photosynthetic plastid, the majority of apicomplexan relatives contain a non-photosynthetic plastid, and the remainder contain no plastid. The ancestral photosynthetic plastid of ancestral apicomplexans may have been very similar to the plastid of ''C. velia'' or the plastid of ''V. brassicaformis''. Just as the term "plastid" has become widely adopted for chloroplast-derived organelles of non-photosynthetic protists, the term "apicoplast" has also gained acceptance for the plastid of apicomplexans. In current usage, the term plastid may even be used to describe the chloroplast of any photosynthetic organism, and so has a general non-discriminatory use.

Isolation and phylogeny of ''C. velia''

''Chromera velia'' was first isolated by Dr Bob Moore (then at Carter Lab,

University of Sydney The University of Sydney (USYD), also known as Sydney University, or informally Sydney Uni, is a public research university located in Sydney, Australia. Founded in 1850, it is the oldest university in Australia and is one of the country's ...

) from the stony coral (

Scleractinia Scleractinia, also called stony corals or hard corals, are marine animals in the phylum Cnidaria that build themselves a hard skeleton. The individual animals are known as polyps and have a cylindrical body crowned by an oral disc in which a ...

Cnidaria Cnidaria () is a phylum under kingdom Animalia containing over 11,000 species of aquatic animals found both in freshwater and marine environments, predominantly the latter. Their distinguishing feature is cnidocytes, specialized cells that ...

) ''

Plesiastrea versipora ''Plesiastrea versipora'' is an encrusting coral found in the Indian and Pacific Oceans. It is of interest because of its ability to thrive in both tropical and temperate environments, and to grow massive. Existing massive colonies of ''P. ...

'' (

Faviidae Mussidae is a family of stony coral in the order Scleractinia. Following a taxonomic revision in 2012, the family is now restricted to species found in the Atlantic Ocean, with Pacific species transferred to the new family Lobophylliidae. Many ...

) of Sydney Harbour,

New South Wales ) , nickname = , image_map = New South Wales in Australia.svg , map_caption = Location of New South Wales in AustraliaCoordinates: , subdivision_type = Country , subdivision_name = Australia , established_title = Before federation , es ...

, Australia (collectors Thomas Starke-Peterkovic and Les Edwards, December 2001). It was also cultured by Moore from the stony coral ''

Leptastrea purpurea ''Leptastrea'' is a genus of massive reef building stony corals known primarily from the Indo-Pacific. Although previously assigned to Faviidae, Budd et al. (2012) assigned it to Scleractinia ''incertae sedis'' based on phylogenetic results dem ...

'' (

) of One Tree Island

Great Barrier Reef The Great Barrier Reef is the world's largest coral reef system composed of over 2,900 individual reefs and 900 islands stretching for over over an area of approximately . The reef is located in the Coral Sea, off the coast of Queensland, ...

Queensland ) , nickname = Sunshine State , image_map = Queensland in Australia.svg , map_caption = Location of Queensland in Australia , subdivision_type = Country , subdivision_name = Australia , established_title = Before federation , establishe ...

, Australia (collectors Karen Miller and Craig Mundy, November 2001). With the use of DNA sequencing, a relationship between ''C. velia'', dinoflagellates and apicomplexans was noted. Genomic DNA of ''C. velia'' was extracted to provide PCR templates, and when the sequences of the amplified genes were compared with those of other species, biostatistical methods resulted in placement of ''C. velia'' on a phylogenetic branch close to the

apicomplexa The Apicomplexa (also called Apicomplexia) are a large phylum of parasitic alveolates. Most of them possess a unique form of organelle that comprises a type of non-photosynthetic plastid called an apicoplast, and an apical complex structure. Th ...

ns. Through a variety of

phylogenetic In biology, phylogenetics (; from Greek φυλή/ φῦλον [] "tribe, clan, race", and wikt:γενετικός, γενετικός [] "origin, source, birth") is the study of the evolutionary history and relationships among or within groups o ...

tests on the orthologous genes found in similar organisms, researchers were able to relate ''C. velia'' to dinoflagellates and

ns which are alveolates. Both the nucleus and the plastid of ''C. velia'' showed

alveolate The alveolates (meaning "pitted like a honeycomb") are a group of protists, considered a major clade and superphylum within Eukarya. They are currently grouped with the stramenopiles and Rhizaria among the protists with tubulocristate mitochon ...

ancestry. A subsequent study of the ''C.velia'' and ''V. brassicaformis'' plastid genomes has shown in greater detail that the plastids of peridinin dinoflagellates, apicomplexans and chromerids share the same lineage, derived from a red-algal-type plastid.

Description and availability

After the naming of the organism and description of the immotile form, several papers have since documented the vegetative motile form which excysts in a set of eight siblings from the progenitor cell. A structure resembling an apical complex in the flagellate, includes a conoid or pseudoconoid and long sacculate

microneme Micronemes are secretory organelles, possessed by parasitic apicomplexans. Micronemes are located on the apical third of the protozoan body. They are surrounded by a typical unit membrane. On electron microscopy they have an electron-dense matrix ...

s, confirming a relationship to

ns. However, this relationship has yet to be formalised, beyond the fact that chromerids and apicomplexans are classified as sister groups within the Alveolata. The precise function of the apical organelles of the Chromerida, is unknown though the organelles have been studied in some detail. Live ''C. velia'' is available to purchase from the NCMA culture collection in Maine USA, and is backed up in other culture collections such as CCAP (UK), and SCCAP (Scandinavia). Preserved material is deposited in the Australian Museum, Sydney, as holotype/hapantotype Z.6967, being a preserved culture embedded in PolyBed 812, and is separately deposited also in absolute ethanol.

Special features of the ''C. velia'' plastid

The plastid of ''Chromera velia'' has 4 surrounding membranes and contains chlorophyll ''a'', while chlorophyll ''c'' is missing. Photosynthesis has been examined in ''C. velia'', and its photosynthetic carbon assimilation was shown to be very efficient, in the sense of adaptability to a wide range of light regimes, from high light to low light. Thus like other algae that contain only chlorophyll ''a'' (such as ''

Nannochloropsis ''Nannochloropsis'' is a genus of algae comprising six known species. The genus in the current taxonomic classification was first termed by Hibberd (1981). The species have mostly been known from the marine environment but also occur in fresh and ...

'', a ''

stramenopile Stramenopile is a clade of organisms distinguished by the presence of stiff tripartite external hairs. In most species, the hairs are attached to flagella, in some they are attached to other areas of the cellular surface, and in some they have be ...

''), the lack of chlorophyll ''c'' does not appear to debilitate chromerids in any way. Accessory pigments in ''C. velia'' include isofucoxanthin. Unlike other eukaryotic algae which use only UGG codons to encode the

amino acid Amino acids are organic compounds that contain both amino and carboxylic acid functional groups. Although hundreds of amino acids exist in nature, by far the most important are the alpha-amino acids, which comprise proteins. Only 22 alpha a ...

tryptophan in plastid genomes, the plastid genome of ''C. velia'' contains the codon UGA at several positions that encode tryptophan in the psbA gene and other genes. The UGA-Trp codon is characteristic of

s, and the mitochondria of various organisms, but until the discovery of ''C. velia'', was unprecedented in any photosynthetic plastid. Similarly a bias towards poly-U tails is found specifically on the subset of apicoplast-encoded genes that are involved in photosynthesis in ''C. velia''. Discovery of these two genetic features, the UGA-Trp, and the poly-U tailed photosynthesis genes, indicates that ''C. velia'' provides an appropriate model to study the evolution of the apicoplast. Another characteristic feature of ''C. velia'' is that its plastid genome is linear-mapping. Janouškovec et al 2013 also presents the

expression Expression may refer to: Linguistics * Expression (linguistics), a word, phrase, or sentence * Fixed expression, a form of words with a specific meaning * Idiom, a type of fixed expression * Metaphorical expression, a particular word, phrase, o ...

pathway DNA RNA photosystem I protein A1. It is unusually late to fully resolve: It is not fully assembled as a single transcript or even as a single

translation Translation is the communication of the meaning of a source-language text by means of an equivalent target-language text. The English language draws a terminological distinction (which does not exist in every language) between ''transla ...

product, but only after that step.

Mitochondrion

The mitochondrial genome of ''C. velia'' encodes a single gene -

cox1 Cytochrome c oxidase I (COX1) also known as mitochondrially encoded cytochrome c oxidase I (MT-CO1) is a protein that in humans is encoded by the ''MT-CO1'' gene. In other eukaryotes, the gene is called ''COX1'', ''CO1'', or ''COI''. Cytochro ...

- and several fragmented rRNA molecules. This mitochondrial genome is one step further devolved than those of peridinin dinoflagellates, which contain three protein-coding genes. However both lineages, ''C. velia'' and dinoflagellates, contain functioning mitochondria, the genes having moved to the nucleus. Most of the Apicomplexan mitochondria that have been previously sequenced also have only three protein encoding genes including cox1 and a number of fragmented rRNA genes. Exceptions to this rule are known: the apicomplexan organism '' Cryptosporidium'' appears to lack a mitochondrion entirely. The ''C. velia'' mitochondrial apparatus differs significantly from that of the other chromerid '' Vitrella brassicaformis''. A recent finding is that the respiratory complexes I and III of ''C. velia'' are missing, and that the function of complex III has been taken over by a lactate->cytochrome C oxidoreductase By contrast the more ancestral chromerid mitochondrial genome, represented by that of ''V. brassicaformis'' retains a canonical complex III. An unexpected finding in ''Chromera'' was a large (1 μm diameter) ever-present organelle bounded by two membranes, originally thought to be the mitochondrion. This organelle may not be a mitochondrion, but an extrusosome called the "chromerosome". The actual mitochondria, by contrast, were found to be small and multiple, just as for other alveolates.

Evolution

The discovery of ''Chromera velia'' and its unique plastid which is similar in origin to the apicoplasts, provides an important link in the evolutionary history of the apicomplexans. Previous to the description of ''C. velia'', much speculation surrounded the idea of a photosynthetic ancestral lineage for apicomplexan parasites. For a step by step history of the characterization of the apicomplexan apicoplast organelle, see for example the web review by Vargas Parada (2010). It is hypothesized that apicomplexans, with their relic chloroplast, the apicoplast, were once able to synthesize energy via photosynthesis. Ancient apicomplexans or their immediate progenitors may have had a symbiotic relationship with the

coral reef A coral reef is an underwater ecosystem characterized by reef-building corals. Reefs are formed of colonies of coral polyps held together by calcium carbonate. Most coral reefs are built from stony corals, whose polyps cluster in groups. C ...

around them. To achieve that, these ancient organisms would have possessed a working chloroplast. However, if so, this autotrophic ability was lost and apicomplexans have slowly evolved to become parasitic species dependent on their hosts for survival. Although researchers are still discussing why apicomplexans would sacrifice their photosynthetic ability and become parasitic, it is suggested that clues might be gathered by studying aspects of the evolution of the ''Chromerida'', such as the development of an apical complex of organelles that were used by later descendants to invade host cells. In July 2015 the full genome sequences of chromerids ''C.velia'' and ''V. brassicaformis'' were published, revealing the array of genes that were co-opted or adapted in the transition from a free living lifestyle to a parasitic lifestyle. The plastid genome of ''C. velia'' is unusual in that there is evidence it may be linear and contains split genes for key photosystem genes. The linear state of the ''C. velia'' plastid genome is a reminder that ''C. velia'' is not an ancestral organism, but is a derived form, which evolved from an ancestral photosynthetic alveolate that presumably had a circular plastid genome, just as the other known chromerid '' Vitrella brassicaformis'' does. Much research surrounds the flagellar apparatus of Chromera, Vitrella and apicomplexans, in relation to the morphological transition of this organelle during the origination of parasitism in apicomplexans. It does appear that ''C. velia'' exist as a free-living phototroph when necessary or when environmental conditions are suitable, but can also infect coral larvae and live as an intracellular parasite.

Pharmacological significance

One potentially important contribution of research on ''C. velia'', besides its position as a missing link between parasitic and algal species, is its potential in studies aimed at finding new antimalarial drugs or clarifying the function of existing antimalarial drugs . Many drugs that have been in clinical use for a long time affect functions in the apicoplast in ''Plasmodium'' cells. The essential biological function of the apicoplast is solely the production of isoprenoids and their derivatives, without which the parasites cannot live. ''C. velia'' could serve as a convenient model target for the development of antimalarial drugs, since it effectively contains the original apicoplast, as it were, and since its nuclear genome closely resembles that of the ancestral proto-parasites. In the laboratory setting, working with apicomplexan parasites can be difficult, hazardous and expensive, because they must be infected into live host cells (in tissue culture) to remain viable. ''Chromera velia'', is more easily maintained than apicomplexan parasites, yet is related to them, so may potentially provide a laboratory model for the understanding or development of antimalarial treatments. ''C. velia'' is able to live independently of its normal animal hosts and can be grown easily and cheaply in a laboratory setting. Just as humans are subject to infections by the apicomplexans ''

'' and '' Cryptosporidium'', animals are also subject to infection by apicomplexans including ''

Toxoplasma ''Toxoplasma gondii'' () is an obligate intracellular parasitic protozoan (specifically an apicomplexan) that causes toxoplasmosis. Found worldwide, ''T. gondii'' is capable of infecting virtually all warm-blooded animals, but felids, such as d ...

'', ''

Babesia ''Babesia'', also called ''Nuttallia'', is an apicomplexan parasite that infects red blood cells and is transmitted by ticks. Originally discovered by the Romanian bacteriologist Victor Babeș in 1888, over 100 species of ''Babesia'' have since ...

'', '' Neospora'', and ''

Eimeria ''Eimeria'' is a genus of apicomplexan parasites that includes various species capable of causing the disease coccidiosis in animals such as cattle, poultry and smaller ruminants including sheep and goats. ''Eimeria'' species are considered to be ...

''. It is said anecdotally, that almost every animal on earth has one or more species of apicomplexan parasite that challenge it. The economic burden from apicomplexan parasites is estimated in the billions of dollars, (see also

Malaria Malaria is a mosquito-borne infectious disease that affects humans and other animals. Malaria causes symptoms that typically include fever, tiredness, vomiting, and headaches. In severe cases, it can cause jaundice, seizures, coma, or death. S ...

) on top of the human and animal costs of these organisms. An increased understanding of the evolutionary roles and functions of apicoplasts and apical complexes can impact on research about the apicomplexan parasites of livestock animals, making ''C. velia'' of interest in an agricultural context as well as in the medical and ecological fields. A provisional patent on the use of ''Chromerida'' (''Chromera'' and ''Vitrella'') as subjects for screening and testing of anti-apicomplexan drugs was not lodged as a full patent, which leaves the way open for use of these organisms in commercial development of screening methods for useful compounds.

Ecology

One study has shown that ''Chromera'' may have a symbiotic role within corals, being vertically transmitted from parent to offspring ''

Montipora ''Montipora'' is a genus of Scleractinian corals in the phylum Cnidaria. Members of the genus ''Montipora'' may exhibit many different growth morphologies. With eighty five known species, ''Montipora'' is the second most species rich coral genus ...

'' ''digitata'' via the coral's egg stage. The ''Chromera'' cells could be cultured from the ''M.digitata'' eggs and were subsequently used to transiently colonise '' Acropora'' coral larvae. ''Chromeras known host range therefore includes the corals ''M. digitata'', ''P. versipora'' (type host) and ''L. purpurea'' (alternate host), and extends through tropical and temperate waters. The symbiont may obtain metabolites from the host, and it has been proposed this may potentially increase its growth rate inside the host. Analysis of environmental metagenomic datasets has revealed that there are other species related to ''C. velia'' and ''V. brassicaformis'' associated with corals, but yet to be described. These associations are globally distributed. Among these is the uncultured undescribed "apicomplexan-related lineage-V" which was inferred by the authors to be potentially photosynthetic, and appears to be a symbiosis specialist. Cultured chromerids by comparison can be hypothesized to move between the free-living and coral-associated states, as they are found in ''M. digitata'' eggs but are also associated with seaweed, judging from correlations in macroalgal metagenomic datasets. The range of life strategies and niches adopted by apicomplexan-related algae therefore resembles the spectrum of niches occupied by the coral symbiont ''

Symbiodinium : ''This is about the genus sometimes called Zoox. For the company, see Zoox (company)'' ''Symbiodinium'' is a genus of dinoflagellates that encompasses the largest and most prevalent group of endosymbiotic dinoflagellates known. These unicell ...

''.

Research Community

The first Chromera conference and workshop was held at the Heron Island Research Station, Queensland, Australia from November 21–25, 2011.http://parasite.org.au/wp-content/uploads/2012/01/ASPnewsletterV22.3smaller1.pdf Highlights included diving and culturing. Presentations included the announcement of a formal description of the second isolated chromerid, '' Vitrella brassicaformis''. Professors and students alike participated in the conference and workshop, and a broad range of topics was covered. It was agreed that further meetings would follow. The second conference was held in South Bohemia, Czech Republic, from June 22–25, 2014, arranged by the Oborník lab, via open email list.

References

{{Taxonbar, from=Q10565533 Species described in 2008 Chromerida