30 Example Sentences Showcasing the Meaning of 'Diploid'
Most human body cells are diploid, containing two sets of chromosomes.
The diploid nature of cells allows for genetic variation through the process of meiosis.
During fertilization, the egg and sperm combine to form a diploid zygote with a complete set of chromosomes.
In mitosis, cells divide and produce two identical diploid daughter cells with the same genetic material.
Understanding the diploid number is crucial in studying the inheritance of traits in offspring.
Scientists use karyotyping to analyze the diploid chromosome number and detect abnormalities.
The diploid stage dominates the life cycle of most animals, contrasting with the haploid stage in plants.
The diploid condition ensures the stability of the genetic information passed from one generation to the next.
Haploid cells contain only one set of chromosomes, while diploid cells have the full complement of genetic material.
The diploid genome provides redundancy and safeguards against the loss of essential genetic information during cell division.
In a diploid organism, somatic cells undergo mitosis, ensuring the preservation of the original chromosome number.
The diploid number is a fundamental concept in the study of chromosomal disorders and genetic diseases.
The diploid nature of human cells contributes to the complexity of mapping the entire human genome.
Mutations can alter the diploid chromosome number, leading to genetic variations within a population over time.
Studying the diploid condition helps scientists comprehend the intricate mechanisms of embryonic development.
The diploid state facilitates the repair of damaged DNA, ensuring the stability and integrity of the genetic code.
Chromosomal abnormalities may result in deviations from the typical diploid chromosome number, affecting an organism's health.
The diploid genome plays a crucial role in the adaptation of species to changing environmental conditions over generations.
During gamete formation, cells undergo meiosis to reduce the chromosome number from diploid to haploid.
The concept of diploid organisms is foundational to the understanding of population genetics and evolutionary biology.
The diploid characteristic allows for the formation of diverse genotypes within a population, contributing to species resilience.
The diploid chromosome set ensures that vital genetic information is passed on during cell division, maintaining the species' genetic stability.
In cancer research, scientists investigate how disruptions in the diploid genome contribute to the development of tumors.
The diploid condition is a key factor in the study of hybridization, where different species interbreed, resulting in novel genetic combinations.
Examining the diploid nature of cells is crucial in forensic science for identifying individuals based on their unique genetic profiles.
The diploid stage in the life cycle of fungi involves the fusion of specialized cells, leading to the formation of a multicellular organism.
The study of diploid organisms provides insights into the mechanisms that drive speciation and biodiversity in ecosystems.
Researchers explore the diploid genome's role in epigenetics, unraveling how environmental factors can influence gene expression and phenotype.
The diploid state is a critical aspect of conservation genetics, guiding efforts to preserve genetic diversity within endangered species.
The diploid nature of certain plant cells is crucial in agriculture, influencing breeding programs to enhance crop yields and resistance to diseases.