Cyanophages are viruses that infect
cyanobacteria
Cyanobacteria (), also known as Cyanophyta, are a phylum of gram-negative bacteria that obtain energy via photosynthesis. The name ''cyanobacteria'' refers to their color (), which similarly forms the basis of cyanobacteria's common name, blu ...
, also known as Cyanophyta or blue-green algae. Cyanobacteria are a phylum of bacteria that obtain their energy through the process of
photosynthesis.
Although cyanobacteria metabolize
photoautotrophically like eukaryotic plants, they have
prokaryotic cell structure. Cyanophages can be found in both freshwater and marine environments.
Marine and freshwater cyanophages have
icosahedral heads, which contain double-stranded DNA, attached to a tail by connector proteins.
The size of the head and tail vary among species of cyanophages. Cyanophages infect a wide range of cyanobacteria and are key regulators of the cyanobacterial populations in aquatic environments, and may aid in the prevention of cyanobacterial blooms in freshwater and marine ecosystems. These blooms can pose a danger to humans and other animals, particularly in
eutrophic freshwater lakes. Infection by these viruses is highly prevalent in cells belonging to ''
Synechococcus'' spp. in marine environments, where up to 5% of cells belonging to marine cyanobacterial cells have been reported to contain mature phage particles.
The first described cyanophage
LPP-1, was reported by Safferman and Morris in 1963.
Cyanophages are classified within the
bacteriophage
A bacteriophage (), also known informally as a ''phage'' (), is a duplodnaviria virus that infects and replicates within bacteria and archaea. The term was derived from "bacteria" and the Greek φαγεῖν ('), meaning "to devour". Bacteri ...
families ''
Myoviridae'' (e.g.
AS-1,
N-1 N1, N.I, N-1, or N01 may refer to:
Information technology
* Nokia N1, an Android tablet
* Nexus One, an Android phone made by HTC
* Nylas N1, a desktop email client
* Oppo N1, an Android phone
* N1, a Sun Microsystems software brand now mostly ...
), ''
Podoviridae'' (e.g.
LPP-1) and ''
Siphoviridae'' (e.g.
S-1).
[Sarma TA. 'Cyanophages' in ''Handbook of Cyanobacteria'' (]CRC Press
The CRC Press, LLC is an American publishing group that specializes in producing technical books. Many of their books relate to engineering, science and mathematics. Their scope also includes books on business, forensics and information tec ...
; 2012) ()
Nomenclature
The following three families of cyanophages have been recognized by the
International Committee on Taxonomy of Viruses (ICTV):
Myoviridae,
Siphoviridae and
Podoviridae; all contain double-stranded DNA. Initially, cyanophages were named after their hosts. However, the ability of cyanophages to infect multiple hosts and lack of a universal naming system can cause difficulties with their taxonomic classification.
Many other classification systems used serological, morphological, or physiological properties. Currently, the suggested procedure of naming strains is as follows: Cyanophage Xx-YYZaa, where Xx is the first two letters of the genus and species names of the host that the type specimen phage is found in, YY is the origin of the specimen, Z is the virus family, and aa is the reference number of the virus.
Morphology
Like all other tailed
bacteriophages
A bacteriophage (), also known informally as a ''phage'' (), is a duplodnaviria virus that infects and replicates within bacteria and archaea. The term was derived from "bacteria" and the Greek φαγεῖν ('), meaning "to devour". Bacterio ...
cyanophages have a tail and a protein
capsid surrounding genetic material. The double-stranded DNA is approximately 45 kbp long and in some cyanophages encodes photosynthetic genes, an integrase, or genes involved with phosphate metabolism (phosphate-inducible).
The tail binds the virus to the host cell and transfers viral DNA to the host cell upon infection. Based on morphological characteristics, cyanophages are placed into the families Myoviridae, Podoviridaeand Siphoviridae, and although not formally recognized by the
International Committee on Taxonomy of Viruses, historically cyanophages have been further classified into as a Cyanomyovirus, Cyanopodovirus or Cyanostylovirus based on which of the three families in which they are grouped.
Cyanomyovirus
The type species for Cyanomyovirus of the family ''
Myoviridae'' is Cyanophage AS-1, which was isolated from a waste stabilization pond,
and was also the first genus recognized.
The tails have been observed as either contractile or noncontractile with lengths of 20 to 244 nm, widths of 15 to 23 nm, and a shrinking range of 93 nm.
Cyanophages generally have isometric hexagonal heads with diameters ranging from 55 to 90 nm.
There is large morphological variation in this group, which suggests that they infect a variety of host species.
At the point of attachment between the long tail and the head there is a base plate where short pins are attached, a contractile sheath, and an internal core, similar to other bacteriophages in the Myoviridae.
Cyanopodovirus
Cyanopodovirus, within the ''
Podoviridae'', are present in both fresh and marine water. The type specimen of cyanopodovirus is Cyanophage LPP-1, which infects ''Lyngbya'', ''Plectonema'' and ''Phormidium''. Their capsids are polyhedrons that appear hexagonal in 2-D.
The tails are hollow with sixfold radial symmetry made of rings of six subunits with unknown orientation.
Similar to cyanomyoviruses, they can be found in waste-stabilization ponds and have isometric capsids of similar size but shorter tails.
Cyanostylovirus
Cyanostylovirus belong to the family ''
Siphoviridae'', where the type species is Cyanophage S-1, which is known to infect ''
Synechococcus''.
Cyanostyloviridae have smaller (50 nm in diameter) isometric capsids than the previous genera but longer tails (140 nm).
Other genera in this family have tails that range from 200 to 300 nm in length.
Host
The host range of cyanophages is very complex and is thought to play an important role in controlling
cyanobacteria
Cyanobacteria (), also known as Cyanophyta, are a phylum of gram-negative bacteria that obtain energy via photosynthesis. The name ''cyanobacteria'' refers to their color (), which similarly forms the basis of cyanobacteria's common name, blu ...
l populations.
Freshwater cyanophages have been reported to infect hosts in more than one
genus although this may also reflect problems in the taxonomic classification of their hosts. Nonetheless, they have been classified into three major groups based on the
taxonomy of their
host
A host is a person responsible for guests at an event or for providing hospitality during it.
Host may also refer to:
Places
* Host, Pennsylvania, a village in Berks County
People
*Jim Host (born 1937), American businessman
* Michel Host ...
organism.
LPP group
The first group is LPP, which belongs to the cyanopodoviruses.
This group of viruses includes the original cyanophage isolate that infected "blue-green algae".
Cyanophages in this group are easy to isolate from the environment.
They carry short non-contractile tails and cause
lysis
Lysis ( ) is the breaking down of the membrane of a cell, often by viral, enzymic, or osmotic (that is, "lytic" ) mechanisms that compromise its integrity. A fluid containing the contents of lysed cells is called a ''lysate''. In molecular bio ...
of several species within three genera of cyanobacteria: ''
Lyngbya'', ''Plectonema'' and ''Phormidium''.
Thus, the name LPP was derived from the three genera of hosts that they infect.
LPP-1 and LPP-2 are two major types of LPP cyanhophages.
This group of cyanophages has the same host same range; however, their serum and other body fluids are not the same.
AS and SM group
The AS and SM groups represent the third group of cyanophages classified based on host range.
This group of viruses is said to be the “new blue-green algae” and infects unicellular forms of
cyanobacteria
Cyanobacteria (), also known as Cyanophyta, are a phylum of gram-negative bacteria that obtain energy via photosynthesis. The name ''cyanobacteria'' refers to their color (), which similarly forms the basis of cyanobacteria's common name, blu ...
.
The
myovirus
''Myoviridae'' is a family of bacteriophages in the order ''Caudovirales''. Bacteria and archaea serve as natural hosts. There are 625 species in this family, assigned to eight subfamilies and 217 genera.
Subdivisions
The subfamily ''Tevenvirin ...
AS-1 infects ''
Anacystis nidulans'',
''
Synechococcus cedrorum'', ''Synechococcus elongatus'' and ''
Microcystis aeruginosa''.
Similarly, the unicellular blue-green algae ''Synechococcus elongatus'' and ''Microcystis aeruginosa'' are infected by the podovirus SM-1.
There is a new SM-group of virus, known as SM-2, which also lyses ''Microcystis aeruginosa''
''.''
A, AN, N and NP group
Cyanophages classified in the groups A, AN, N and NP represent a second group of cyanophages classified based on host range.
They play an important role in infecting and causing lysis of members of the genera ''
Nostoc
''Nostoc'', also known as star jelly, troll’s butter, spit of moon, fallen star, witch's butter (not to be confused with the fungi commonly known as witches' butter), and witch’s jelly, is the most common genus of cyanobacteria found in vari ...
'', ''
Anabaena
''Anabaena'' is a genus of filamentous cyanobacteria that exist as plankton. They are known for nitrogen-fixing abilities, and they form symbiotic relationships with certain plants, such as the mosquito fern. They are one of four genera of cyanob ...
'' and ''Plectonema''.
The A-group of the
virus causes lysis and infects ''Anabaena'' species.
Similarly, the host range of the AN group includes both ''Anabaena'' and ''Nostoc'' species; whereas, the N group of viruses infects ''
Nostoc
''Nostoc'', also known as star jelly, troll’s butter, spit of moon, fallen star, witch's butter (not to be confused with the fungi commonly known as witches' butter), and witch’s jelly, is the most common genus of cyanobacteria found in vari ...
'' species only and includes
Cyanophage N-1.
Cyanophage N-1 is remarkable in that it encodes a functional
CRISPR
CRISPR () (an acronym for clustered regularly interspaced short palindromic repeats) is a family of DNA sequences found in the genomes of prokaryotic organisms such as bacteria and archaea. These sequences are derived from DNA fragments of bacte ...
array that may provide immunity to the host to infection by competing cyanophages.
Lastly, cyanobacterial isolates of ''Nostoc'' and ''Plectonema'' species are infected by the NP group of viruses.
These cyanobacterial isolates closely relate to the taxonomic group of ''
Nostoc
''Nostoc'', also known as star jelly, troll’s butter, spit of moon, fallen star, witch's butter (not to be confused with the fungi commonly known as witches' butter), and witch’s jelly, is the most common genus of cyanobacteria found in vari ...
''.
They all have a broad host range and
mutations are noticeable in these groups of viruses.
Replication
Cyanophage replication has two dominant cycles: the
lytic cycle
The lytic cycle ( ) is one of the two cycles of viral reproduction (referring to bacterial viruses or bacteriophages), the other being the lysogenic cycle. The lytic cycle results in the destruction of the infected cell and its membrane. Bacter ...
and the
lysogenic cycle. Viral nucleic-acid replication and immediate synthesis of virus-encoded protein is considered to be the lytic cycle. Phages are considered lytic if they only have the capacity to enter the lytic cycle; whereas, temperate phage can either enter the lytic cycle or become stably integrated with the host genome and enter the lysogenic cycle.
To meet the metabolic demand of replication, viruses recruit a multitude of strategies to sequester nutrients from their host. One such technique is to starve their host cell. This is done by inhibiting the host cells CO
2 fixation, which enables the cyanophage to recruit photosynthetically formed redox and ATP from the host cell to meet their nucleotide and metabolic response.
Many cyanophages contain genes known as viral-encoded
auxiliary metabolic genes Auxiliary metabolic genes (AMGs) are found in many bacteriophages but originated in bacterial cells. AMGs modulate host cell metabolism during infection so that the phage can replicate more efficiently. For instance, bacteriophages that infect the ...
(AMGs), which encode critical, rate-limiting steps of the host organism.
AMGs encode genes for the pentose phosphate pathway, phosphate acquisition, sulfur metabolism, and DNA/RNA processing; these genes interfere with the metabolism of the host cell. Metagenomic analysis highly supports the notion that these genes promote viral replication through the degradation of host DNA and RNA, as well as a shift in host-cell metabolism to nucleotide biosynthesis.
Cyanophages also use these genes to maintain host photosynthesis through the progression of the infection, shuttling the energy away from carbon fixation to anabolism, which the virus takes advantage of.
AMGs also code for proteins, which aid in the repair of the host photosystem, which is susceptible to photodegradation.
One such example is the
D1 proteins which replace the host cells D1 protein when it becomes damaged.
The virus up-regulates photosynthesis, which leads to an increased rate of D1 protein degradation, the host cell alone can not efficiently replace these proteins so the cyanophage replaces them for the host cell, allowing it to continue providing energy for the cyanophage replication cycle.
It is evident that cyanophage replication is heavily dependent on the diel cycle. The first step in the infectious cycle is for the cyanophage to make contact and bind to the cyanobacteria, this adsorption process is heavily dependent on light intensity.
Field studies also show that the infection and replication of cyanophages is directly or indirectly synchronized with the light-dark cycle.
Adherence
Cyanophages like other
bacteriophage
A bacteriophage (), also known informally as a ''phage'' (), is a duplodnaviria virus that infects and replicates within bacteria and archaea. The term was derived from "bacteria" and the Greek φαγεῖν ('), meaning "to devour". Bacteri ...
s rely on
Brownian motion to collide with bacteria, and then use receptor binding proteins to recognize cell surface proteins, which leads to adherence. Viruses with contractile tails then rely on receptors found on their tails to recognize highly conserved proteins on the surface of the host cell.
Cyanophages also have several surface proteins with Ig-like domains, which are used for adherence.
Some cyanophages also produce a horn like structure, which projects from the vertex opposite of the tail.
The horn like structure is hypothesized to aid in attachment to cells in the natural environment; however, this has not been confirmed.
Lytic cycle
Cyanophages can undergo both the lytic and lysogenic cycles depending on the viruses and their environment.
In one study on cyanomyoviruses infecting marine ''Synechococcus'' sp., the lytic phase was shown to last approximately 17 hours with the average number of viruses produced for each cell that was lysed (burst size) ranging from 328 under high light to 151 under low light. There is evidence supporting the premise that there is a correlation between light intensity and burst size.
Studies show that cyanophage replication is driven by energy from photosynthetic metabolism of the host cell.
Lysing of the host cell tends to occur after the completion of host DNA replication and immediately prior to cell division.
This is due to the increased availability of resources for the replication of viral particles.
Ecological Significance
Ecosystem
Certain cyanophages infect and burst ''
Prochlorococcus'', the world's smallest and most abundant primary producers.
Marine cyanophages of the family ''
Myoviridae'' help regulate primary production mainly through infection of ''
Synechococcus'' spp.
The other two families, ''
Podoviridae'' and ''
Siphoviridae'', are usually found in freshwater ecosystems.
In coastal oceans, abundance of viruses infecting ''
Synechococcus'' spp. can reach >10
6 mL
−1 and 10
5 g
−1 in sediments.
An estimated 3% of ''Synechococcus'' are removed daily by cyanophages.
Cyanophages are widely distributed both throughout the water column and geographically.
Cyanophage populations have been found to inhabit microbial mats in the Arctic through
metagenomic analysis and hypersaline lagoons.
They can withstand temperatures ranging from 12-30 °C and salinities of 18-70 ppt.
The DNA of cyanophages is susceptible to UV degradation but can be restored in host cells through a process called "
photoreactivation
Photolyases () are DNA repair enzymes that repair damage caused by exposure to ultraviolet light. These enzymes require visible light (from the violet/blue end of the spectrum) both for their own activation and for the actual DNA repair. The DN ...
". The viruses cannot move independently and must rely on currents, mixing, and host cells to transport them. Viruses cannot actively target their hosts and must wait to encounter them. The higher probability of collision may explain why cyanophages of the ''Myoviridae'' family primarily infect one of the most abundant cyanobacteria, ''Synechoccocus''.
Evidence of seasonal co-variation between the phages and hosts, in addition to an increase in cyanophages above a threshold of 10
3 to 10
4 ''Synechococcus'' mL
−1, may suggest a “
kill-the-winner” dynamic.
Biological and physical impact
Members of the genus ''Synechococcus'' contribute ~25% to photosynthetic primary productivity in the ocean, having significant bottom-up effect on higher trophic levels.
The
dissolved organic matter (DOM) released from viral lysis by cyanophages can be shunted into the
microbial loop
The microbial loop describes a trophic pathway where, in aquatic systems, dissolved organic carbon (DOC) is returned to higher trophic levels via its incorporation into bacterial biomass, and then coupled with the classic food chain formed by phy ...
where it is recycled or rejected by
heterotrophic bacteria to form recalcitrant matter that is eventually buried in sediment.
This is an important step in atmospheric carbon sequestration, commonly referred to as the
biological pump, and maintenance of other
biogeochemical cycle
A biogeochemical cycle (or more generally a cycle of matter) is the pathway by which a chemical substance cycles (is turned over or moves through) the biotic and the abiotic compartments of Earth. The biotic compartment is the biosphere and the ...
s.
Cyanobacteria perform oxygenic photosynthesis which is thought to be the origin of atmospheric oxygen approximately 2.5Ga ago. Population, and therefore, rate of oxygen evolution can be regulated by cyanophages. In certain species of cyanobacteria, such as ''
Trichodesmium'' that perform nitrogen fixation, cyanophages are capable of increasing the supply rate of bioavailable organic nitrogen through lysis.
Cyanophages also infect bloom-forming cyanobacteria that can be toxic to health of humans and other animals through the production of
microcystin and cause
eutrophication, leading to
oxygen minimum zones. Cyanophages can infect and kill four common bloom-forming cyanobacteria: ''
Lyngbya birgei'', ''
Anabaena
''Anabaena'' is a genus of filamentous cyanobacteria that exist as plankton. They are known for nitrogen-fixing abilities, and they form symbiotic relationships with certain plants, such as the mosquito fern. They are one of four genera of cyanob ...
circinalis'', ''
Anabaena
''Anabaena'' is a genus of filamentous cyanobacteria that exist as plankton. They are known for nitrogen-fixing abilities, and they form symbiotic relationships with certain plants, such as the mosquito fern. They are one of four genera of cyanob ...
flosaquae'', and ''
Microcystis aeruginosa'',
and thus may be able to prevent
harmful algal blooms under normal conditions. Blooms cause problems ecologically, economically, and in freshwater systems, adversely affect the quality of drinking water. Spikes in cyanobacteria populations are usually brought on by nutrient increases due to run-off from fertilizers, dust, and sewage.
By killing hosts, cyanophages may help restore ecosystems to their natural balance.
In addition to regulating population size, cyanophages likely influence
phylogenetic composition by allowing other phytoplankton normally inhibited by cyanobacteria to grow.
The specificity with which cyanophages target various hosts also affects community structure. Due to the lysogenic phase of their replication cycle, cyanophages may behave as mobile genetic elements for genetic diversification of their hosts through
horizontal gene transfer.
Whether the lytic or lysogenic phase dominates in a given area has been hypothesized to depend on eutrophic or oligotrophic conditions, respectively.
Increase in number of encounters is directly related to an increase in rate of infection providing more opportunity for selective pressure, making coastal ''Synechococcus'' more resistant to viral infection than their off-shore counterparts.
References
Further reading
#
#
#
# {{cite book , last=Suttle , first=CA , editor1-last=Whitton , editor1-first=BA , editor2-last=Potts , editor2-first=M , title=The Ecology of Cyanobacteria: Their Diversity in Time and Space , publisher=Kluwer Academic Publishers , date=2000 , pages=563–589 , chapter=Chapter 20: Cyanophages and their role in the ecology of cyanobacteria , isbn=978-0-7923-4755-2
External links
the Virus Ecology Group (VEG)the Bacteriophage Ecology Group (BEG)the Tucson Marine Phage Lab (TMPL)
Bacteriophages