Chromosome 7 - Researchers have found a very strong link between this chromosome and autism. Their investigations now focus on a region called AUTS1, which is very likely associated with autism. Most of the genome studies completed to date have found that AUTS1 plays some role in autism. There is evidence that a region of chromosome 7 is also related to speech and language disorders. Because ASDs affect these functions, autism may involve this chromosome.

Chromosome 13 - In one study, 35 percent of families tested showed linkage for chromosome 13. Researchers are now trying to replicate these findings with other populations of families affected by autism.

Chromosome 15 - Genome-wide screens and cytogenetic studies show that a part of this chromosome may play a role in autism. Genetic errors on this chromosome cause Angelman syndrome and Prader-Willi syndrome, both of which share behavioral symptoms with autism. Cytogenetic errors on chromosome 15 occur in up to 4 percent of patients with autism.

Chromosome 16 - Genes found on this chromosome control a wide variety of functions that, if disrupted, cause problems that are similar or related to symptoms of autism. For example, a genetic error on this chromosome causes tuberous sclerosis, a disorder that shares many symptoms with autism, including seizures. So, regions on this chromosome may be responsible for certain similar behavioral aspects of the two disorders.

Chromosome 17 - A recent study found the strongest evidence of linkage on this chromosome among a set of more than 500 families whose male members were diagnosed with autism. Missing or disrupted genes on this chromosome can cause problems, such as galactosemia, a metabolic disorder that, if left untreated, can result in mental retardation. Chromosome 17 also contains the gene for the serotonin transporter, which allows nerve cells to collect serotonin. Serotonin is involved in emotions and helps nerve cells communicate. Problems with the serotonin transporter can cause obsessive-compulsive disorder (OCD), which is marked by recurrent, unwanted thoughts (obsessions) and/or repetitive behaviors (compulsions).

The X chromosome - Two disorders that share symptoms with autism - Fragile X syndrome and Rett syndrome - are typically caused by genes on the X chromosome, which suggests that genes on the X chromosome may also play a role in ASDs. People generally have 46 chromosomes in most of their cells - 23 from their mother and 23 from their father. After fertilization, the two sets match up to form 23 pairs of chromosomes. The chromosomes in the 23rd pair are called the "sex chromosomes," X and Y. Their combination determines a person's sex - males usually have one X and one Y chromosome, and females usually have two X chromosomes. The fact that more males than females have autism supports the idea that the disorder involves genes on the X chromosome. Females may be able to use their other X chromosome to function normally, while males, without such a "back up" show symptoms of the condition.

Potential candidate genes

By focusing their studies on hot spots, researchers have narrowed their search for candidate genes. They need to do more work to understand how many genes are involved, and how these genes interact with each other and with the environment to cause autism. Researchers do have some promising leads - more leads than can be mentioned in this fact sheet, but these are a few.

Researchers have found evidence that autism may involve the HOXA1 gene. HOXA1, a homeobox gene, plays a critical role in the development of important brain structures, cranial nerves, the ear, and the skeleton of the head and neck. Researchers know that the HOXA1 gene is active very early in life - between the 20th and 24th days after conception - and that any problem with the gene's function causes problems with the development of these structures. Such problems may contribute to the features of autism.

In one study, nearly 40 percent of the persons with autism carried a specific mutation in the HOXA1 gene sequence - nearly twice as many as those who had the same change, but who did not have autism and were not related to anyone with autism. In addition, 33 percent of those who did not have autism but were related to someone with autism also had the mutation in their HOXA1 gene. These findings mean that autism does not result from genetics alone, but that some other factors are also involved in causing the condition. If researchers can confirm an association between this mutation and ASDs, they may be able to detect the mutation as an early test for autism, allowing important interventions to start as early in life as possible.

About the Author

NIH is the nation's medical research agency - making important medical discoveries that improve health and save lives. The National Institutes of Health (NIH), a part of the U.S. Department of Health and Human Services, is the primary Federal agency for conducting and supporting medical research.