Genetics
Genetics is the study of biologically inherited traits, including traits that are influenced in part by the environment.
Gregor Mendel - Father of genetics
Gregor Mendel (Original name - Johann Mendel) was an Austrian monk.
The observations he made while growing peas in his monastery's garden became the foundation of modern genetics and the study of heredity.
Through the selective cross-breeding of common pea plants (Pisum sativum) over many generations, Mendel discovered that certain traits show up in offspring without any blending of parent characteristics. For instance, the pea flowers are either purple or white, intermediate colours do not appear in the offspring of cross-pollinated pea plants.
Mendel observed 7 traits that are easily recognized and apparently only occur in one of two forms.
His ideas had been published in 1886 but largely went unrecognized until 1900, which was long after his death.
Gregor Mendel - Father of genetics
Gregor Mendel (Original name - Johann Mendel) was an Austrian monk.
The observations he made while growing peas in his monastery's garden became the foundation of modern genetics and the study of heredity.
Through the selective cross-breeding of common pea plants (Pisum sativum) over many generations, Mendel discovered that certain traits show up in offspring without any blending of parent characteristics. For instance, the pea flowers are either purple or white, intermediate colours do not appear in the offspring of cross-pollinated pea plants.
Mendel observed 7 traits that are easily recognized and apparently only occur in one of two forms.
His ideas had been published in 1886 but largely went unrecognized until 1900, which was long after his death.
Terms used often and its definition
Allele
One alternative form of a given allelic pair; tall
and dwarf are the alleles for the height of a pea plant; more than two alleles
can exist for any specific gene, but only two of them will be found within any
individual
Allelic pair
The combination of
two alleles which comprise the gene pair
Homozygote
An individual
which contains only one allele at the allelic pair; for example DD is
homozygous dominant and dd is homozygous
recessive; pure lines are homozygous for the gene of interest
Heterozygote
An individual
which contains one of each member of the gene pair; for example the Dd heterozygote
Genotype
The specific
allelic combination for a certain gene or set of genes
Phenotype
The way an organism looks (outer appearance)
genotype + environment + random variation = phenotype.
genotype + environment + random variation = phenotype.
- Polygenic inheritance
- A pattern of inheritance where the trait is controlled by many genes and each dominant allele has an additive effect.
Variations - differences amongst the
individuals of the same species and the offspring of the offspring of
the same parents. Variations can be due to mutations.
Gene
Gene
It is the functional unit of heredity.
Heredity
Heredity
This includes those traits or characteristics which are transmitted from
generation to generation and it is therefore fixed for a particular
individual.
Laws of Mendel
Law of segregation (Law of purity of gametes)
A gamete may carry either the dominant or the recessive factor but not both as we find in f1 individuals. This suggests that there is no blending of mendelian factors in f1, but that they stay together and only one is expressed. The gametes which are formed are always pure for a particular character. This is why it is called either as principle of segregation or law of purity of gametes.
Law of independent assortment (Mendel's second law)
The two character under consideration are assorting (give rise to different combination) in an independent manner. This principle is known as independent assortment.
Law of dominance
Out of the 2 alleles, the one which is able to express itself is the dominant allele while the other is the recessive allele. In the presence of recessive allele and dominant allele, only dominant allele will express itself.
Law of segregation (Law of purity of gametes)
A gamete may carry either the dominant or the recessive factor but not both as we find in f1 individuals. This suggests that there is no blending of mendelian factors in f1, but that they stay together and only one is expressed. The gametes which are formed are always pure for a particular character. This is why it is called either as principle of segregation or law of purity of gametes.
Law of independent assortment (Mendel's second law)
The two character under consideration are assorting (give rise to different combination) in an independent manner. This principle is known as independent assortment.
Law of dominanceOut of the 2 alleles, the one which is able to express itself is the dominant allele while the other is the recessive allele. In the presence of recessive allele and dominant allele, only dominant allele will express itself.
For example:
Here plant height is the trait and the two alleles responsible for the traits are Tall (T) and short (t).
When
both allels responsible for Tall (T) and short (t) are present
irrespective of the presence of recessive allele (t), only dominant
allele (T) is always expressed resulting in heterozygous tall plants.
Law of alleles
Mendel proposed that each genetic character is controlled by a pair of unit factor, now commonly called alleles or allelomorphic factor.
Mendel proposed that each genetic character is controlled by a pair of unit factor, now commonly called alleles or allelomorphic factor.
Allelomorphs or alleles indicate alternative forms of the same genes.
Backcross
The crossing of an organism, with an unkown genotype, to a homozygous recessive organism (tester). A cross between an individual of unknown genotype or a heterozygote (or a multiple heterozygote) to a homozygous recessive individual.
Backcross
The f1 individuals obtained in a cross are usually selfed to get f2
progeny. They can also be crossed with the one of the other two parents
from which they were derived; such a cross of f1 individual with either
of the two parents is known as a backcross.
Test cross
When f1 is backcrossed with recessive parent is called testcross.Test cross
The crossing of an organism, with an unkown genotype, to a homozygous recessive organism (tester). A cross between an individual of unknown genotype or a heterozygote (or a multiple heterozygote) to a homozygous recessive individual.
A cross between an individual exhibiting the dominant phenotype of a
trait and an individual that is homozygous recessive for that trait in
order to determine the genotype of the dominant individual.
a cross between an organism whose genotype for a certain trait is
unknown and an organism that is homozygous recessive for that trait so
the unknown genotype can be determined from that of the offspring
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