{| align=right style="background: none;"
| [right|thumbnail|270px|This stylistic diagram shows a gene in relation to the double helix structure of [[DNA]Create? and to a [chromosome]Create? (right). Introns are regions often found in eukaryote genes that are removed in the splicing process (after the DNA is transcribed into RNA): only the exons encode the protein. This diagram labels a region of only 40 or so bases as a gene. In reality most genes are hundreds of times larger.]] |
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A gene is the basic unit of heredity in a living organism. The field of genetics predates modern molecular biology, but it is now known that all living things depend on [DNA]Create? to pass on their traits to offspring. Loosely speaking, a gene is a segment of genomic information that must be taken as a whole to define traits. The colloquial usage of the term gene often refers to the scientific concept of an [allele]Create?.
The notion of a gene has evolved with the science of genetics, which began when Gregor Mendel noticed that biological variations were only inherited from parent organisms as specific, discrete traits. For example, if one parent has blue eyes and the other has brown eyes, there is a 3/4 chance that the child will have brown eyes. The biological entity responsible for defining eye color was termed a "gene", but the biological basis for inheritance remained unknown until the discovery of the genetic code in mid 1950s, when genes were determined to be encoded by [DNA]Create?. All organisms have many genes corresponding to many different biological traits, some of which are immediately visible, such as eye color or number of limbs, and some of which are not, such as blood type or increased risk for certain diseases, or the thousands of basic biochemical processes which comprise life.
In [ cells]Create?, a gene is a portion of an organism's [DNA]Create? which contains both "coding" sequences that determine what the gene does, and "non-coding" sequences that determine when the gene is active (expressed.) When a gene is active, the coding and non-coding sequences are copied in a process called transcription, producing an RNA copy of the gene's information. This piece of RNA can then direct the synthesis of proteins via the genetic code. In other cases, the RNA is used directly, for example as part of the ribosome. The RNA may undergo special post-transcriptional processing steps required to convert it into a mature, functional form. These molecules resulting from gene expression, whether RNA or protein, are known as [gene product]Create?s, and are responsible for the development and functioning of all living things.
More technically, a gene is a locatable region of genomic sequence, corresponding to a unit of inheritance, and is associated with regulatory regions, transcribed regions and/or other functional sequence regions. (
(#1) ) (
(#2) ) The physical development and [phenotype]Create? of organisms can be thought of as a product of genes interacting with each other and with the environment. (see eg Martin Nowak's Evolutionary Dynamics) A concise definition of a gene, taking into account complex patterns of regulation and transcription, genic conservation and non-coding RNA genes, has been proposed by Gerstein et al: (
(#3) ) "A gene is a union of genomic sequences encoding a coherent set of potentially overlapping functional products".
{| align=right style="background: none;"
| [right|thumbnail|270px|This stylistic diagram shows a gene in relation to the double helix structure of [[DNA]Create? and to a [chromosome]Create? (right). Introns are regions often found in eukaryote genes that are removed in the splicing process (after the DNA is transcribed into RNA): only the exons encode the protein. This diagram labels a region of only 40 or so bases as a gene. In reality most genes are hundreds of times larger.]] |
| - |
|
A gene is the basic unit of heredity in a living organism. The field of genetics predates modern molecular biology, but it is now known that all living things depend on [DNA]Create? to pass on their traits to offspring. Loosely speaking, a gene is a segment of genomic information that must be taken as a whole to define traits. The colloquial usage of the term gene often refers to the scientific concept of an [allele]Create?.
The notion of a gene has evolved with the science of genetics, which began when Gregor Mendel noticed that biological variations were only inherited from parent organisms as specific, discrete traits. For example, if one parent has blue eyes and the other has brown eyes, there is a 3/4 chance that the child will have brown eyes. The biological entity responsible for defining eye color was termed a "gene", but the biological basis for inheritance remained unknown until the discovery of the genetic code in mid 1950s, when genes were determined to be encoded by [DNA]Create?. All organisms have many genes corresponding to many different biological traits, some of which are immediately visible, such as eye color or number of limbs, and some of which are not, such as blood type or increased risk for certain diseases, or the thousands of basic biochemical processes which comprise life.
In [ cells]Create?, a gene is a portion of an organism's [DNA]Create? which contains both "coding" sequences that determine what the gene does, and "non-coding" sequences that determine when the gene is active (expressed.) When a gene is active, the coding and non-coding sequences are copied in a process called transcription, producing an RNA copy of the gene's information. This piece of RNA can then direct the synthesis of proteins via the genetic code. In other cases, the RNA is used directly, for example as part of the ribosome. The RNA may undergo special post-transcriptional processing steps required to convert it into a mature, functional form. These molecules resulting from gene expression, whether RNA or protein, are known as [gene product]Create?s, and are responsible for the development and functioning of all living things.
More technically, a gene is a locatable region of genomic sequence, corresponding to a unit of inheritance, and is associated with regulatory regions, transcribed regions and/or other functional sequence regions. (
(#1) ) (
(#2) ) The physical development and [phenotype]Create? of organisms can be thought of as a product of genes interacting with each other and with the environment. (see eg Martin Nowak's Evolutionary Dynamics) A concise definition of a gene, taking into account complex patterns of regulation and transcription, genic conservation and non-coding RNA genes, has been proposed by Gerstein et al: (
(#3) ) "A gene is a union of genomic sequences encoding a coherent set of potentially overlapping functional products".
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