All of the known life-forms show specific chiral properties in chemical structures as well as macroscopic anatomy, development and behavior. In any specific organism or evolutionarily related set thereof, individual compounds, organs, or behavior are found in the same single enantiomorphic form. Deviation (having the opposite form) could be found in a small number of chemical compounds, or certain organ or behavior but that variation strictly depends upon the genetic make up of the organism. From chemical level (molecular scale), biological systems show extreme stereospecificity in synthesis, uptake, sensing, metabolic processing. A living system usually deals with two enantiomers of the same compound in drastically different ways. In biology, homochirality is a common property of
amino acids and
carbohydrates. The chiral
protein-making amino acids, which are translated through the ribosome from genetic coding, occur in the L form. However, D-amino acids are also found in nature. The monosaccharides (carbohydrate-units) are commonly found in D-configuration. DNA double helix is chiral (as any kind of
helix is chiral), and
B-form of DNA shows a right-handed turn. Sometimes, when two enantiomers of a compound are found in organisms, they significantly differ in their taste, smell and other biological actions. For example,(+)-
Carvone is responsible for the smell of
caraway seed oil, whereas (–)-carvone is responsible for smell of
spearmint oil. However, it is a commonly held misconception that (+)-limonene is found in oranges (causing its smell), and (–)-limonene is found in lemons (causing its smell). In 2021, after rigorous experimentation, it was found that all
citrus fruits contain only (+)-limonene and the odor difference is because of other contributing factors. Also, for artificial compounds, including medicines, in case of
chiral drugs, the two enantiomers sometimes show remarkable difference in effect of their biological actions. Dextropropoxyphene (
Darvon) is a painkiller, whereas its enantiomer,
levopropoxyphene (Novrad) is an anti-cough agent. In case of
penicillamine, the (
S-isomer is used in the treatment of primary chronic arthritis, whereas the (
R)-isomer has no therapeutic effect, as well as being highly toxic. In some cases, the less therapeutically active enantiomer can cause side effects. For example, (
S-naproxen is an analgesic but the (
R-isomer causes renal problems. In such situations where one of the enantiomers of a racemic drug is active and the other partner has undesirable or toxic effect one may switch from racemate to a single enantiomer drug for a better therapeutic value. Such a switching from a racemic drug to an enantiopure drug is called a
chiral switch. The naturally occurring plant form of alpha-tocopherol (
vitamin E) is RRR-α-tocopherol whereas the synthetic form (all-racemic vitamin E, or dl-tocopherol) is equal parts of the stereoisomers RRR, RRS, RSS, SSS, RSR, SRS, SRR, and SSR with progressively decreasing biological equivalency, so that 1.36 mg of dl-tocopherol is considered equivalent to 1.0 mg of d-tocopherol. Macroscopic examples of chirality are found in the plant kingdom, the animal kingdom and all other groups of organisms. A simple example is the coiling direction of any climber plant, which can grow to form either a left- or right-handed helix. In anatomy, chirality is found in the imperfect mirror image symmetry of many kinds of animal bodies. Organisms such as
gastropods exhibit chirality in their coiled shells, resulting in an asymmetrical appearance. Over 90% of gastropod species have
dextral (right-handed) shells in their coiling, but a small minority of species and genera are virtually always
sinistral (left-handed). A very few species (for example
Amphidromus perversus) show an equal mixture of dextral and sinistral individuals. In humans, chirality (also referred to as
handedness or
laterality) is an attribute of humans defined by their unequal distribution of
fine motor skill between the left and right
hands. An individual who is more
dexterous with the right hand is called
right-handed, and one who is more skilled with the left is said to be
left-handed. Chirality is also seen in the study of
facial asymmetry and is known as aurofacial asymmetry. According to the
Axial Twist theory,
vertebrate animals develop into a left-handed chirality. Due to this, the
brain is turned around and the
heart and
bowels are turned by 90°. In the case of the health condition
situs inversus totalis, in which all the internal organs are flipped horizontally (i.e. the heart
placed slightly to the right instead of the left), chirality poses some problems should the patient require a liver or heart transplant, as these organs are chiral, thus meaning that the blood vessels which supply these organs would need to be rearranged should a normal, non
situs inversus (
situs solitus) organ be required. In the monocot
bloodroot family, the species of the
genera Wachendorfia and
Barberetta have only individuals that either have the style points to the right or the style pointed to the left, with both morphs appearing within the same populations. This is thought to increase
outcrossing and so boost genetic diversity, which in turn may help to survive in a changing environment. Remarkably, the related genus
Dilatris also has chirally dimorphic flowers, but here both morphs occur on the same plant. In
flatfish, the
summer flounder or fluke are left-eyed, while
halibut are right-eyed. == Resources and Research ==