Karrikins are a group of
plant growth regulators
Plant hormone (or phytohormones) are signal molecules, produced within plants, that occur in extremely low concentrations. Plant hormones control all aspects of plant growth and development, from embryogenesis, the regulation of organ size, pa ...
found in the smoke of burning plant material.
Karrikins help stimulate seed germination and plant development because they mimic a signaling hormone known as
strigolactone Strigolactones are a group of chemical compounds produced by a plant's roots. Due to their mechanism of action, these molecules have been classified as plant hormones or phytohormones. So far, strigolactones have been identified to be responsible fo ...
. Strigolactones are hormones that help increase growth of symbiotic
arbuscular mycorrhizal fungi
An arbuscular mycorrhiza (AM) (plural ''mycorrhizae'', a.k.a. ''endomycorrhiza'') is a type of mycorrhiza in which the symbiont fungus (''AM fungi'', or AMF) penetrates the cortical cells of the roots of a vascular plant forming arbuscules. (N ...
in the soil, which enhances plant growth and leads to an increase in plant branching.
Smoke from wildfires or bushfires has been known for a long time to stimulate the germination of seeds. In 2004, the
butenolide
Butenolides are a class of lactones with a four-carbon heterocyclic ring structure.Joule JA, Mills K. (2000). Heterocyclic Chemistry 4th ed. Blackwell Science Publishing: Oxford, UK They are sometimes considered oxidized derivatives of furan. The ...
karrikinolide (KAR
1) was shown to be responsible for this effect.
Later, several closely related compounds were discovered in smoke, and are collectively known as karrikins.
Chemical synthesis
Karrikins are formed by the heating or combustion of carbohydrates, including sugars and
polysaccharides
Polysaccharides (), or polycarbohydrates, are the most abundant carbohydrates found in food. They are long chain polymeric carbohydrates composed of monosaccharide units bound together by glycosidic linkages. This carbohydrate can react with w ...
, mainly
cellulose
Cellulose is an organic compound with the formula , a polysaccharide consisting of a linear chain of several hundred to many thousands of β(1→4) linked D-glucose units. Cellulose is an important structural component of the primary cell wall ...
. When plant material burns, these carbohydrates convert to karrikins. Burning plant products, such as straw, filter paper, cigarettes, and some sugars, can also produce karrikins. Seed germination activity can be generated within 30 minutes of heating plant material at . The
pyran
In chemistry, pyran, or oxine, is a six-membered heterocyclic, non-aromatic ring, consisting of five carbon atoms and one oxygen atom and containing two double bonds. The molecular formula is C5H6O. There are two isomers of pyran that differ by the ...
moiety of karrikins is probably directly derived from a
pyranose Pyranose is a collective term for saccharides that have a chemical structure that includes a six-membered ring consisting of five carbon atoms and one oxygen atom. There may be other carbons external to the ring. The name derives from its similarity ...
sugar. There is no evidence that karrikins occur naturally in plants, but it has been postulated that karrikin-like molecules do.
Karrikin taxonomy
It has long been known that compounds released from smoke stimulate seed germination. To identify the active compounds that contribute to seed germination activity, smoke compounds were separated by liquid fractionation and were each tested for their effects on seed germination activity. Bioassays identified several related compounds that were named karrikins.
Six karrikins have so far been discovered in smoke, and they are designated KAR
1, KAR
2, KAR
3, KAR
4, KAR
5 and KAR
6. KAR
1 to KAR
4 are the most active karrikins.
KAR
1 is also known as karrikinolode and was the first karrikin to be discovered.
Mode of action
Karrikins are released into the air upon the burning of plants. Subsequently, karrikins then get deposited on the soil surface and stimulate seed germination after rainfall. Since karrikins are released from smoke, they are released in huge quantities. Interestingly, some plants which are known as "fire-followers" are unable to germinate without karrikins. Fire-followers need rain after massive fires in order to germinate; this means that they may remain dormant and viable for decades until the right combination of fire occur in proper succession.
Etymology
The first karrikin discovered, abbreviated as KAR
1, was initially named gavinone in reference to its discovery by chemist Gavin Flematti. After consulting with an
etymologist, Flematti proposed changing the name of the molecule and its related compounds to karrikin. One of the first recorded Western Australian
Noongar
The Noongar (, also spelt Noongah, Nyungar , Nyoongar, Nyoongah, Nyungah, Nyugah, and Yunga ) are Aboriginal Australian peoples who live in the south-west corner of Western Australia, from Geraldton on the west coast to Esperance on the so ...
words for 'smoke' from the Perth area in the 1830s, is 'karrik'
.
The response to karrikins
Karrikins produced by
bushfires
A wildfire, forest fire, bushfire, wildland fire or rural fire is an unplanned, uncontrolled and unpredictable fire in an area of combustible vegetation. Depending on the type of vegetation present, a wildfire may be more specifically identif ...
occur largely in the ash at the site of the fire. Rains occurring after the fire wash the karrikins into the soil where dormant seeds reside. The karrikins and water can provide a 'wake-up call’ for such seeds, triggering germination of the soil seed bank. The plants that depend on karrikins to grow are known as "fire-followers", they emerge grow quickly, flower and produce new seeds, which fall to the ground. These seeds can remain in the soil for decades, until the next fire produces fresh karrikins. Plants with this lifestyle are known as fire ephemerals. They thrive because the fire removes competing vegetation and provides nutrients and light for the emerging seedlings. Plants in many families respond to smoke and karrikins, suggesting that this response has evolved independently in different groups.
Fire-followers are not the only plants that respond to karrikins. Seeds from a number of different flowering families like
tomatoes
The tomato is the edible berry of the plant ''Solanum lycopersicum'', commonly known as the tomato plant. The species originated in western South America, Mexico, and Central America. The Mexican Nahuatl word gave rise to the Spanish word ...
,
lettuce
Lettuce (''Lactuca sativa'') is an annual plant of the family Asteraceae. It is most often grown as a leaf vegetable, but sometimes for its stem and seeds. Lettuce is most often used for salads, although it is also seen in other kinds of food, ...
, and
trees
In botany, a tree is a perennial plant with an elongated stem, or trunk, usually supporting branches and leaves. In some usages, the definition of a tree may be narrower, including only woody plants with secondary growth, plants that are u ...
respond to karrikin signaling.
Interestingly, other studies have found that seed of ostensibly fire-adapted species do not display a sensitivity to karrikins. The difference between fire-followers and plants that respond to karrikins is their dependence on karrikins.
Plants' response to karrikins is fundamental because karrikins mimic the strigolactone hormones which are originally required for growth in plants. Fire-followers, on the other hand, have fine-tuned their responses according to the availability of karrikins.
Structure and physicochemical properties
Carbon, hydrogen, and oxygen make up the two ring structures found in karrikins, one of which is a six-membered, heterocyclic ring with a molecular formula of C
5H
6O known as
pyran
In chemistry, pyran, or oxine, is a six-membered heterocyclic, non-aromatic ring, consisting of five carbon atoms and one oxygen atom and containing two double bonds. The molecular formula is C5H6O. There are two isomers of pyran that differ by the ...
, and the other is a five-membered
lactone
Lactones are cyclic carboxylic esters, containing a 1-oxacycloalkan-2-one structure (), or analogues having unsaturation or heteroatoms replacing one or more carbon atoms of the ring.
Lactones are formed by intramolecular esterification of the co ...
ring known as a
butenolide
Butenolides are a class of lactones with a four-carbon heterocyclic ring structure.Joule JA, Mills K. (2000). Heterocyclic Chemistry 4th ed. Blackwell Science Publishing: Oxford, UK They are sometimes considered oxidized derivatives of furan. The ...
.
Karrikins easily dissolve in water, they are transparent, and have a melting point of 118–119 °C.
However, they are unstable at very high temperatures and during common daylight, which means that they decay more rapidly than common active compounds which are not sensitive to sunlight.
Mechanism of action
The mode of action of karrikins has been largely determined using the genetic resources of ''
Arabidopsis thaliana
''Arabidopsis thaliana'', the thale cress, mouse-ear cress or arabidopsis, is a small flowering plant native to Eurasia and Africa. ''A. thaliana'' is considered a weed; it is found along the shoulders of roads and in disturbed land.
A winter a ...
''. Perception of karrikins by Arabidopsis requires an alpha/beta-fold hydrolase named KARRIKIN-INSENSITIVE-2 (KAI2).
The KAI2 protein has a
catalytic triad
A catalytic triad is a set of three coordinated amino acids that can be found in the active site of some enzymes. Catalytic triads are most commonly found in hydrolase and transferase enzymes (e.g. proteases, amidases, esterases, acylases, lip ...
of amino acids which is essential for activity, consistent with the hypothesis that KAI2 hydrolyses its ligand.
This model is consistent with the perception of the chemically related
strigolactone Strigolactones are a group of chemical compounds produced by a plant's roots. Due to their mechanism of action, these molecules have been classified as plant hormones or phytohormones. So far, strigolactones have been identified to be responsible fo ...
hormones which involves hydrolysis by their receptor protein DWARF14, an alpha/beta hydrolase related to KAI2.
The question of whether karrikins act directly in plants is controversial. While some studies suggest that karrikins can bind directly to KAI2 protein, others do not support this.
It is possible that karrikins produced by wildfires are converted to a different compound by the plant, before interaction with KAI2. The ability of different plants to carry out this conversion could partly explain differences in their ability to respond to karrikins and to smoke.
Signalling
The activity of karrikins requires an F-box protein named MORE AXILLARY GROWTH-2 (MAX2) in Arabidopsis. This protein is also required for strigolactone signaling in ''Arabidopsis''. Homologs of MAX2 are also required for strigolactone signaling in rice (known as DWARF3) petunia (DAD2) and pea (RMS4). Karrikin signaling also requires a protein named SUPPRESSOR OF MORE AXILARY GROWTH2-1 (SMAX1) which is a homolog of the DWARF53 protein required for strigolactone signaling in rice. SMAX1 and DWARF53 proteins could be involved in the control of cellular functions such as transport or transcription.
The present model for karrikin and strigolactone signaling involves interaction of KAI2 or DWARF14 with SMAX1 or DWARF53 proteins respectively, which targets those proteins for
ubiquitin
Ubiquitin is a small (8.6 kDa) regulatory protein found in most tissues of eukaryotic organisms, i.e., it is found ''ubiquitously''. It was discovered in 1975 by Gideon Goldstein and further characterized throughout the late 1970s and 1980s. Fo ...
ation and destruction.
Studies have shown that ''Arabidopsis'' responds to the two signals; KAR1, and KAR2. The two genes, MORE AXILLARY GROWTH2 (MAX2) and KARRIKIN-INSENSITIVE2 (KAI2) are essential for understanding the actions of karrikins and were discovered in ''Arabidopsis'' mutants which failed to respond to karrikins. In rice, strigolactones interact with the F-box protein knowns as DWARF3 upon their hydrolysis by the DWARF14 (also known as D14-type proteins). This interaction targets the
ubiquitination
Ubiquitin is a small (8.6 kDa) regulatory protein found in most tissues of eukaryotic organisms, i.e., it is found ''ubiquitously''. It was discovered in 1975 by Gideon Goldstein and further characterized throughout the late 1970s and 1980s. Fo ...
and destruction of proteins which are responsible for different aspect of plant growth, like the outgrowth of lateral shoots. This means that strigolactones, upon their interaction with D3 and D14; ubiquinate, and destroy proteins like DWARF53, which are responsible for the outgrowth of lateral shoots, and for the inhibition of stem thickening and root branching. In Arabidopsis, Karrikins work in a similar way to strigolactones; they require
homologous proteins known as KARRIKIN-INSENSITIVE1 (KAI1 or MAX2) in order to be able to interact with KARRIKIN-INSENSITIVE2 which is responsible for hypocotyl elongation and the inhibition of seed germination. The
ubiquination of KAI2, therefore stimulate seed germination and inhibits hypocotyl elongation.
Karrikins could be used as agricultures, considering the environmental challenges that are occurring nowadays.
Effects on plant growth
Karrikins not only stimulate seed germination, but are reported to increase seedling vigour. In Arabidopsis, karrikins influence seedling
photomorphogenesis In developmental biology, photomorphogenesis is light-mediated development, where plant growth patterns respond to the light spectrum. This is a completely separate process from photosynthesis where light is used as a source of energy. Phytochromes ...
, resulting in shorter hypocotyls and larger
cotyledon
A cotyledon (; ; ; , gen. (), ) is a significant part of the embryo within the seed of a plant, and is defined as "the embryonic leaf in seed-bearing plants, one or more of which are the first to appear from a germinating seed." The numb ...
s. Such responses could provide seedlings with an advantage as they emerge into the post-fire landscape. The KAI2 protein is also required for leaf development, implying that karrikins could influence other aspects of plant growth.
Evolution
The gene for KAI2 protein is present in lower plants including algae and mosses, whereas the DWARF14 protein evolved with seed plants, probably as a result of duplication of KAI2 followed by functional specialisation. Karrikin signaling could have evolved with seed plants as a result of the divergence of KAI2 and DWARF14 functions, possibly during the
Cretaceous
The Cretaceous ( ) is a geological period that lasted from about 145 to 66 million years ago (Mya). It is the third and final period of the Mesozoic Era, as well as the longest. At around 79 million years, it is the longest geological period of th ...
period when fires were common on Earth.
Response to wildfires
Karrikins are produced by wildfires but all seed plants contain KAI2 proteins, raising the question of the usual function of this protein. There is compelling evidence that plants contain an endogenous compound that is perceived by KAI2 to control seed germination and plant development, but this compound is neither a karrikin nor a strigolactone.
References
{{Plant hormones
Lactones
Plant hormones
Furopyrans
Plant growth regulators