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Related Concept Videos

Pedigree Analysis01:35

Pedigree Analysis

Overview
Chromosomal Theory of Inheritance01:39

Chromosomal Theory of Inheritance

In 1866, Gregor Mendel published the results of his pea plant breeding experiments, providing evidence for predictable patterns in the inheritance of physical characteristics. The significance of his findings was not immediately recognized. In fact, the existence of genes was unknown at the time. Mendel referred to hereditary units as “factors.”
Genomic Imprinting and Inheritance02:30

Genomic Imprinting and Inheritance

Diploid organisms inherit genetic material through chromosomes from both parents. Copies of the same gene are known as alleles. In most cases, both alleles are simultaneously expressed and allow various cellular processes to function optimally. If one of the alleles is missing or mutated, the expression of the other allele can compensate; however, this is not true for all genes.
The expression of some genes depends on which parent passed the gene to the offspring, through a phenomenon known as...
Pedigree Analysis01:35

Pedigree Analysis

Overview
Incomplete Dominance01:43

Incomplete Dominance

Gregor Mendel's work (1822 - 1884) was primarily focused on pea plants. Through his initial experiments, he determined that every gene in a diploid cell has two variants called alleles inherited from each parent. He suggested that amongst these two alleles, one allele is dominant in character and the other recessive. The combination of alleles determines the phenotype of a gene in an organism.
Inheritance01:25

Inheritance

Gregor Mendel's pioneering work on the principles of inheritance fundamentally transformed our understanding of how traits are transmitted from generation to generation. His experiments with pea plants laid the groundwork for the discovery of genes, discrete units within organisms that control heredity.
Each gene exists in pairs, and the combination of these genes from both parents forms an individual's genotype. This genotype is a blueprint of potential traits. Examples of genotype traits...

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Articles linked to this work by shared authors, journal, and citation graph.

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To B or Not to B a flower: the role of DEFICIENS and GLOBOSA orthologs in the evolution of the angiosperms.

The Journal of heredity·2005
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A novel MADS-box gene subfamily with a sister-group relationship to class B floral homeotic genes.

Molecular genetics and genomics : MGG·2002
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MADS-box genes are involved in floral development and evolution.

Acta biochimica Polonica·2001
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Plant biology. Floral quartets.

Nature·2001
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Characterization of three GLOBOSA-like MADS-box genes from maize: evidence for ancient paralogy in one class of floral homeotic B-function genes of grasses.

Gene·2001
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Development of floral organ identity: stories from the MADS house.

Current opinion in plant biology·2001

Related Experiment Video

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An Allele-specific Gene Expression Assay to Test the Functional Basis of Genetic Associations
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Published on: November 3, 2010

Genetics of identity

G Theissen1

  • 1Günter Theissen is at the Institute for Genetics, Friedrich Schiller University, Philosophenweg 12, D-07743 Jena, Germany.

Nature
|December 6, 2001
PubMed
Summary

No abstract available in PubMed .

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