The genetic factors influencing sexual orientation are controversial, and research in this area is ongoing. Currently there is a type of nature versus nurture debate with evidence suggesting that determinants of sexual orientation are partly genetic and partly environmental. Determining the extent of each is complex. Some of the most prominent empirical investigations into this question include brain structure studies, twin studies, and chromosome studies. Nature versus nurture is a shorthand expression for debates about the relative importance of an individuals innate nature and experiences (nurture) in determining or causing physical and behavioral traits. ... Sexual orientation is the focus of a persons amorous or erotic desires, fantasies, and feelings, the gender(s) one is primarily oriented towards. ... Genetics (from the Greek genno γεννώ= give birth) is the science of genes, heredity, and the variation of organisms. ... An environment is a complex of external factors that acts on a system and determines its course and form of existence. ... Twin study - Wikipedia /**/ @import /skins-1. ...

Most scientists agree that it is unlikely that there is a single "gay gene" that determines something as complex as sexual orientation, and that it is more likely to be the result of a collection of factors, some of which may be genetic.

Empirical studies which attempt to quantify non-genetic influence on sexual orientation (from whatever sources) are discussed in Environment, choice, and sexual orientation. There are several different environmental factors which various overlapping schools of thought hypothesize influence the determination of sexual orientation. ...

Sexual orientation and evolution

A central problem of the genetics of sexual orientation is the question of adaptiveness. In evolutionary terms, an "adaptive" trait is one that increases the chances for reproduction of the genes that code for that trait in the organism. Non-heterosexual orientations significantly decrease the chances of successful reproduction (they are "anti-adaptive") and so should be selected out of a population over long periods of time.

Many anti-adaptive genetic traits exist in the current human population in significant numbers, including a variety of genetic diseases (some fatal). So settling the question of whether or not non-heterosexual orientations are adaptive, anti-adaptive, or neutral, does not necessarily settle the question of whether or not they have genetic determinants, and vice versa.

Some have suggested that homosexuality is adaptive in a non-obvious way. By way of analogy, the allele (a particular version of a gene) which causes sickle-cell anemia (when two copies are present) may also confer resistance to malaria with no anemia (when one copy is present). An allele is any one of a number of alternative forms of the same gene occupying a given locus (position) on a chromosome. ...

The so-called "gay uncle" theory posits that people who do not themselves have children may nonetheless increase the prevalence of their genes in future generations by providing resources (food, supervision, defense, shelter, etc.) to the offspring of close relatives. The primary criticism of this theory has to do with the fact that children share on average 25% of their genes with their uncles and aunts, but on average 50% with their parents. This means that to be adaptive, a "gay uncle" would need to save from death (or other lineage-terminating events) on average two nieces or nephews for every one of their own offspring they give up. Critics of the theory find this trade-off to be unlikely to produce a net reproductive gain.

Another theory in support of positive adaptiveness of homosexuality and bisexuality is that people these sexual orientations provide some benefit to the local community in general. Communities that are so supported would be stronger and more likely to survive in the future. The primary criticism of this theory is that genetic evolution works on the level of individuals, not communities. If heterosexuals have an individual reproductive advantage over homosexuals and bisexuals in a given community, after a very long period of time, the community should be composed solely of heterosexuals, regardless of how this affects the community as a whole.

Politics

The issue of genetic or other physiological determinants as the basis of homosexuality is a highly politicised issue. Recent studies have demonstrated that public acceptance towards homosexuality would increase significantly if scientific proof emerged that sexual orientation had a genetic or otherwise innate cause. Therefore, both sides have a lot to gain or lose depending on results in this area.

Most objections to the idea of a genetic or innate cause of homosexuality come from religious groups and others opposed to homosexuality. Many of these people seek scientific proof that homosexuality is not determined by genetics or other innate means and interpret scientific results warily. They believe that homosexuality is determined by purely psychological factors, and, that a person's sexuality is a matter of personal choice or of poor upbringing.

Similarly, many gay rights advocates seek scientific proof that homosexuality is determined by genetics or other innate means. However, many do not actually believe the cause(s) of homosexuality to be purely genetic, and instead believe a collection of various factors, including genetics, to be the cause. Most agree that homosexuality is innate. The gay rights movement is a collection of loosely aligned civil rights groups, human rights groups, support groups and political activists seeking acceptance, tolerance and equality for non-heterosexual, (homosexual, bisexual), and transgender people - despite the fact that it is typically referred to as the gay rights movement, members also...

Many research scientists find themselves in the center of these two camps. They see themselves as neutral observers merely publishing their results as they find them. They often have little control over the public dissemination of their findings. A few scientists capitalise on the large media interest in the subject, publishing dubious or meritless findings with large press conferences, frequently with little or no peer review - in other words, science by press conference. The term science by press conference describes a public relations strategy for publicizing results of research in the media. ...

Empirical studies

Twin Studies

One common type of twin study compares the monozygotic (or "identical") twins of people possessing a particular trait to the dizygotic (non-identical) twins of people possessing the trait. Since monozygotic twins have the same genotype (genetic makeup) while dizygotic twins share only, on average, 50% of their genotype, a difference in the prevalence of the trait in question between these types of twins provides evidence of a genetic component. A twin study is a kind of genetic study done to determine heritability. ... Fraternal twin boys in the tub The term twin most notably refers to two individuals (or one of two individuals) who have shared the same uterus (womb) and usually, but not necessarily, born on the same day. ... Fraternal twin boys in the tub The term twin most notably refers to two individuals (or one of two individuals) who have shared the same uterus (womb) and are usually, but not necessarily, born on the same day. ... The genotype is the specific genetic makeup (the specific genome) of an individual, usually in the form of DNA. It codes for the phenotype of that individual. ...

A few such studies began to examine homosexuality in the early 20th century, using small, non-random samples. The first relatively large-scale twin study on sexual orientation was reported by Kallman in 1952. Examining only male twin pairs, he found a 100% concordance rate for homosexuality among 37 MZ twin pairs, compared to a 12%-42% concordance rate among 26 DZ twin pairs, depending on definition. In other words, every identical twin of a homosexual subject was also homosexual, while this was not the case for non-identical twins. This study was criticised for its vaguely-described method of recruiting twins and for a high rate of psychiatric disorders among its subjects. (19th century - 20th century - 21st century - more centuries) Decades: 1900s 1910s 1920s 1930s 1940s 1950s 1960s 1970s 1980s 1990s As a means of recording the passage of time, the 20th century was that century which lasted from 1901–2000 in the sense of the Gregorian calendar (1900–1999 in the... Franz Josef Kallmann (July 24, 1897 - 1965) was one of the pioneers in the study of the genetic basis of psychiatric disorders. ...

While Kallman's was the largest relevant study until the 1990s, other studies did provide examples of monozygotic twin pairs of both sexes who were discordant for sexual orientation; that is, they found that both male and female homosexuals did sometimes have twins that were not homosexual themselves. The existence of such twins clearly demonstrates that genes are not the only factor involved in determining sexual orientation, at least not for everybody. Environmental factors, in the womb or during life, must play a role. // Events and trends The 1990s are generally classified as having moved slightly away from the more conservative 1980s, but keeping the same mind-set. ...

However, studies such as Kallman's did suggest the existence of a significant genetic component to sexual orientation, and later researchers have attempted to use twin studies to quantify the size of such an effect. The most highly publicised was reported by J. Michael Bailey and Richard Pillard in "A Genetic Study of Male Sexual Orientation" in the Archives of General Psychiatry, December 1991. These researchers recruited gay male subjects through advertisements in the gay media and sent questionnaires, which included questions on sexual orientation, to their male siblings. They reported that:

• 52% (29/56) of MZ twins,
• 22% (12/54) of DZ twins,
• 9.2% (13/142) of non-twin brothers,
• and 11% (6/57) of adoptive brothers of gay men

were also gay themselves. The researchers estimated that the heritability of male homosexuality was between 31% and 74%. A similar study carried out by the same researchers on the siblings of lesbian women reported concordance rates of 48% for MZ twins, 16% for DZ twins, 14% for non-twin sisters and 6% for adoptive sisters. Heritability was estimated as between 27% and 76%. Heritability, as used professionally in genetics, has a very precise definition. ...

Being based on samples of people who volunteered for studies specifically targeting gay men and lesbians, these results could only be suggestive. However, a number of more recent studies have examined sexual orientation in large "twin registries" recruited without reference to sexual orientation. Estimates of heritability for male and female homosexuality derived from these are shown below.

Conclusions

One criticism often levelled at comparisons of MZ/DZ twins in general is that they depend upon an assumption that MZ and DZ twins share a similar amount of their environments with their twins. This assumption has been questioned.

To consider specifically the studies under discussion here, the results of the Bailey and Pillard volunteer studies pose some problems for interpretation. Consider the male study. The higher concordance rate among MZ twins compared to DZ twins is consistent with substantial heritability. However, the lower rate among non-twin brothers compared to DZ twins (both share on average 50% of genes), and the high rate of homosexuality among adoptive brothers of gay men compared to the general population (when adoptive brothers are no more genetically similar than men from different families) provide evidence for environmental factors. It is also worth stressing that the MZ concordance was well short of 100%, which also points to a role for environmental factors.

It is considered likely by some authors, including Bailey, that the heritability of homosexuality has been overstated by volunteer studies. For example, a gay man with a gay brother may be more likely to volunteer for a study of gay men and their brothers than will a gay man with a heterosexual brother, perhaps because he feels that his brother will be more willing to cooperate. The lower heritability estimates from the more recent, probably more representative, studies seem to confirm this.

However, there is still considerable variation even between these studies. It is interesting to note that the Kirk et al. study (see table above) was a reanalysis of the same data used by Bailey et al. (same table), using different definitions of homosexuality. The striking difference in results, particularly for women, underlines the lack of definitive results at this point. One problem is that, for most definitions, the prevalence of homosexuality in the general population is low, which means that registries will contain relatively few twin pairs of which one is gay or lesbian. The lack of statistical power resulting from this may explain some of this lack of consistency. Meta-analysis might be of use in resolving this difficulty. A meta-analysis is a statistical practice of combining the results of a number of studies. ...

Overall, data appear to indicate that genetic factors play some role in the development of sexual orientation, but that they probably account for only a minority of variation and that further work will be needed to quantify their influence more precisely.

Any genetic component must be rooted in evolution by natural selection, and many non-scientists assume that a homosexual orientation would necessarily result in decreased reproduction. Gene prevalence and therefore selection, however, can be influenced by increasing the reproductive success of individuals with whom we share genes in common. While it may be unclear to some how homosexuality could offer a selective advantage to individuals, many hypotheses exist that explain why an inherited tendency toward this orientation might offer a selective advantage to the genes they carry. Most hypotheses speculate that the presence of homosexual members may also promote intragroup harmony. These are hypotheses: hard empirical data is lacking. Apparent homosexual behavior provides a stealth mechanism for slipping past alpha males in some species; like most putative explanations, that does not explain inheritance of female homosexuality. Some twin effects could be the result of their shared environment from conception to birth.

Studies of brain structure

A number of sections of the brain have been reported to be sexually dimorphic; that is, they vary between men and women. There have also been reports of variations in brain structure corresponding to sexual orientation. In 1990, Swaab and Hofman reported a difference in the size of the suprachiasmatic nucleus between homosexual and heterosexual men. In 1992, Allen and Gorski reported a difference related to sexual orientation in the size of the anterior commissure. In the anatomy of animals, the brain, or encephalon, is the supervisory center of the nervous system. ... The suprachiasmatic nucleus (SCN) is a nucleus in the hypothalamus and is so named because it resides immediately above the optic chaism (OX). ...

However, the best-known work of this type is that of Simon LeVay, reported in "A Difference in Hypothalamic Structure Between Hetero-sexual and Homosexual Men" in the journal Science, August 1991. LeVay studied four groups of neurons in the hypothalamus, called INAH1, INAH2, INAH3 and INAH4. This was a relevant area of the brain to study, because of evidence that this part of the brain played a role in the regulation of sexual behaviour in animals, and because INAH2 and INAH3 had previously been reported to differ in size between men and women. Science is the journal of the American Association for the Advancement of Science. ... Neurons (also spelled neurones or called nerve cells) are the primary cells of the nervous system. ... In the anatomy of mammals, the hypothalamus is a region of the brain located below the thalamus, forming the major portion of the ventral region of the diencephalon and functioning to regulate certain metabolic processes and other autonomic activities. ...

He obtained brains from 41 deceased hospital patients. The subjects were classified as follows: 19 gay men who had died of AIDS, 16 presumed heterosexual men (6 of whom had died of AIDS), and 6 presumed heterosexual women (1 of whom had died of AIDS). The Red Ribbon symbol is used internationally to represent the fight against AIDS. AIDS (Acquired Immunodeficiency Syndrome or Acquired Immune Deficiency Syndrome, rarely written Aids) is caused by the human immunodeficiency virus HIV, a lentivirus [1]. By leading to the destruction and/or functional impairment of cells of the immune...

The AIDS patients in the heterosexual groups were all identified from medical records as intravenous drug abusers or recipients of blood transfusions, though only 2 of the men in this category had specifically denied homosexual activity. The records of the remaining heterosexual subjects contained no information about their sexual orientation; they were assumed to have been mostly or all heterosexual "on the basis of the numerical preponderance of heterosexual men in the population".

LeVay found no evidence for a difference between the groups in the size of INAH1, INAH2 or INAH4. However, the INAH3 group appeared to be twice as big in the heterosexual male group as in the gay male group; the difference was highly significant, and remained significant when only the 6 AIDS patients were included in the heterosexual group. The size of the INAH3 in the homosexual male brains was similar to that in the heterosexual female brains. However, he also found some contrary results:

• Three of the 19 homosexual subjects had a larger group of neurons in the hypothalamus than the average control-group subject.
• Three of the 16 control-group subjects had a smaller group of neurons in the hypothalamus than the average homosexual subject.

William Byne and colleagues attempted to replicate the differences reported in INAH 1-4 size using a different sample of brains from 14 HIV-positive homosexual males, 34 presumed heterosexual males (10 HIV-positive), and 34 presumed heterosexual females (9 HIV-positive). They found a significant difference in INAH3 size between heterosexual men and women. The INAH3 size of the homosexual men was apparently smaller than that of the heterosexual men and larger than that of the heterosexual women, though neither difference quite reached statistical significance.

Byne and colleagues also weighed and counted numbers of neurons in INAH3, tests not carried out by LeVay. The results for INAH3 weight were similar to those for INAH3 size; that is, the INAH3 weight for the heterosexual male brains was significantly larger than for the heterosexual female brains, while the results for the gay male group were between those of the other two groups but not quite significantly different from either. The neuron count also found a male-female difference in INAH3, but found no trend related to sexual orientation.

Conclusions

LeVay concluded in his 1991 paper that his results suggested that "sexual orientation has a biological substrate", but later urged against over-interpretation of his results. He stated, "It's important to stress what I didn't find. I did not prove that homosexuality is genetic, or find a genetic cause for being gay. I didn't show that gay men are born that way, the most common mistake people make in interpreting my work. Nor did I locate a gay center in the brain. ...Since I look at adult brains, we don't know if the differences I found were there at birth or if they appeared later." [1] In addition to this, of the men LeVay used in his studies, the sexual histories the "heterosexual" men were unknown.

Also, HIV/AIDS may affect the brain, causing chemical changes. So rather than showing that differences in neurons indicate homosexuality, LeVay's study may be showing that HIV/AIDS causes differences in neurons. It should be noted, however, that neither LeVay nor Byne found an HIV-related difference in INAH3 size.

The man considered the "dean of American sexologists", Johns Hopkins University psychologist John Money, concerning LeVay's studies, says, "Of course it [sexual orientation] is in the brain. The real question is, when did it get there? Was it prenatal, neonatal, during childhood, puberty? That we do not know."

Simon LeVay's finding points out a correlation between physiology and sexual orientation, but does not necessarily establish by itself a genetic basis for sexual orientation. Physiology (in Greek physis = nature and logos = word) is the study of the mechanical, physical, and biochemical functions of living organisms. ...

Chromosome linkage studies

This section is incomplete, but should include work by Dean Hamer and others. Dr. Dean Hamer Dr Dean Hamer is a geneticist, who, as of 2005 is the director of the Gene Structure and Regulation Unit at the U.S. National Cancer Institute (part of the National Institutes of Health). ...

Correlations with matriarchal lineage, birth order, and female fertility

A 1993 U.S. study found a correlation between male homosexuality and maternal lineage, suggesting that mothers have some special role in determining the sexual orientation of their male offspring. Other studies have indicated that homosexual men are more likely to have older brothers than the general male population. (This difference is not observed among women.)

A chemical called the histocompatibility Y-antigen (the "HY antigen") is found on the surface of the cells of male mammals. It is hypothesized that the "older brother effect" may be related to increasing levels of antibodies produced by the mother in response to the presence of this chemical during pregnancy with the oldest son. These antibodies could then somehow trigger different brain development patterns in later male children, either in the uterus or in early childhood through breast milk. Later sons would then more likely to have a homosexual orientation as adults. At least one genetic study attempting to verify this theory claimed to find a correletion with a certain area of the X chromosome (of which all women carry two copies, and all men carry one), but these findings could not be replicated by other researchers. The human X chromosome, is is one of the two chromosomes involved in the XY sex-determination system. ...

An alternate theory was proposed by Italian researchers in 2004, supported by a study of about 4,600 people who were the relatives of 98 homosexual and 100 heterosexual men. Female relatives of the homosexual men tended to have more offspring than those of the heterosexual men. Female relatives of the homosexual men on their mother's side tended to have more offspring than those on the father's side. The researchers concluded that there was genetic material being passed down on the X chromosome which both promotes fertility in the mother and homosexuality in her male offspring. The connections discovered, however, would explain only 20% of the cases studied, indicating that this might not be the sole genetic factor determining sexual orientation.

Sources

• How homosexuality is 'inherited'. BBC News, 13 Oct 2004. [2]

The new theory was proposed in a study published in the Royal Society Proceedings: Biological Sciences by Italian researcher Andrea Camperio-Ciani and colleagues at the University of Padova. Gymnasivm Patavinum: The University shown in a 1654 woodcut The University of Padua (Università degli Studi di Padova, UNIPD) is one of the most well-renowned universities in Italy. ...

Testosterone correlation

Homosexuality has also been correlated with elevated testosterone levels in adult males, which may indicate an indirect genetic influence.

Pheromones correlation

Recent research conducted in Sweden [3] has suggested that gay and straight men respond differently to two odors that are believed to be involved in sexual arousal. The research showed that when both heterosexual women (lesbians were included in the study, but the results regarding them were "somewhat confused") and gay men are exposed to a testosterone derivative found in men's sweat, a region in the hypothalamus is activated. Heterosexual men, on the other hand, have a similar response to an estrogen-like compound found in women's urine. The study was taken as evidence in support of the theory that certain chemicals act as pheromones in humans. The conclusion, that sexual attraction, whether same-sex or opposite-sex oriented, operates similarly on a biological level, does not mean that there is necessarily a biological cause for homosexuality. Researchers have suggested that this possibility could be further explored by studying young subjects to see if similar responses in the hypothalamus are found and then correlating this data with adult sexual orientation.

See also

• Environment, choice, and sexual orientation
• Sexual orientation

There are several different environmental factors which various overlapping schools of thought hypothesize influence the determination of sexual orientation. ... Sexual orientation is the focus of a persons amorous or erotic desires, fantasies, and feelings, the gender(s) one is primarily oriented towards. ...

References and External Links

BBC (April 23, 1999). Doubt cast on 'gay gene'. BBC News.

William Byne (May 1994). The Biological Evidence Challenged. Scientific American, vol. 270, pp. 50-55.

William Byne et al. (2001). The Interstitial Nuclei of the Human Anterior Hypothalamus: An Investigation of Variation with Sex, Sexual Orientation, and HIV Status. Hormones and Behavior, vol. 40, pp. 86-92.

Simon LeVay (1991). A Difference in Hypothalmic Structure Between Heterosexual and Homosexual Men. Science, vol. 253, pp. 1034-1037.

Simon LeVay & Dean H. Hamer (May 1994). Evidence for a Biological Influence in Male Homosexuality. Scientific American, vol. 270, pp. 44-49.

Trisha Macnair (undated). Genetics and human behaviour. BBC Health.

Timothy F. Murphy (Fall 2000). Now What? The Latest Theory of Homosexuality. APA Newsletter on Philosophy and Lesbian, Gay, Bisexual and Transgender Issues.

Nuffield Council on Bioethics (2002). Genetics and human behaviour. London: Author. Chapter 10 discusses sexual orientation.

T. J. Taylor (1992). Twin Studies of Homosexuality. Part II Experimental Psychology Dissertation (unpublished), University of Cambridge, UK.

Rosemary C. Veniegas & Terri D. Conley (2000). Biological Research on Women's Sexual Orientations: Evaluating the Scientific Evidence. Journal of Social Issues, vol. 56, pp. 267-282.

Nicholas Wade Gay Men Are Found to Have Different Scent of Attraction The New York Times, May 9, 2005. The New York Times is an internationally known daily newspaper published in New York City and distributed in the United States and many other nations worldwide. ...

Neil Whitehead & Briar Whitehead (updated March 6, 2002). Twin Studies. Online at http://www.mygenes.co.nz/twin.html.