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Usage Examples
Filter by Meaning The haploid cells undergo meiosis to produce gametes for sexual reproduction.
The production of haploid eggs is a crucial step in the life cycle of many insects.
The pollen grains are haploid structures in the reproductive system of plants.
Haploid yeast cells are commonly used in genetic studies due to their simple and well-characterized genomes.
Researchers are investigating the potential use of haploid embryonic stem cells in regenerative medicine and tissue engineering.
The haploid yeast cells undergo meiosis to produce four haploid spores.
The fern reproduces through the process of haploid spore formation.
The researchers discovered a rare haploid mutation in the population.
Haploid mice embryos were used to investigate the role of specific genes in early development.
The moss reproduces by releasing spores, which develop into haploid plants.
The male reproductive cells, or sperm, are haploid in nature.
Haploid cells are generated during the process of spore formation in fungi.
The formation of haploid nuclei occurs during the process of fertilization in fungi.
Researchers are studying the haploid genome of certain fungi to understand their pathogenic properties.
Fungi use haploid hyphae to spread and colonize new areas.
The evolutionary advantage of haploid organisms is their ability to rapidly adapt to changing environments.
Haploid bees, known as drones, are responsible for mating with the queen bee in a honeybee colony.
In the haploid phase of the life cycle, the organism only has one copy of each chromosome.
The haploid phase of the life cycle of algae is dominant, unlike in higher plants.
The haploid cells contain only one set of chromosomes.
The haploid gametes combine during fertilization to form a diploid zygote.
The pollen grains are haploid structures produced by the male reproductive organs.
The haploid number of chromosomes in humans is 23.
The life cycle of algae involves alternating between haploid and diploid generations.
The haploid pollen grains are transferred from the anther to the stigma for pollination.
The haploid genome of an organism can undergo mutations that contribute to genetic diversity.
The haploid nuclei of lower plants fuse to form a diploid zygote.
The haploid phase of the life cycle of ferns is the dominant stage.
The honeybee drone is haploid, carrying only one set of chromosomes.
The genetic diversity of a population can be measured by studying haploid markers in their DNA.
Haploid plants can be produced through a technique called haploid induction, which involves manipulating the plant's chromosomes.
Yeast is a common example of a haploid organism used in genetic research.
Haploid organisms have a simpler genome compared to diploid organisms.
During meiosis, the diploid cells divide to form haploid cells.
Haploid bacteria are often used in genetic engineering experiments.
Haploid organisms are more susceptible to genetic drift due to their small population size.
The study focused on the effects of polyploidy on the evolution of haploid organisms.
Haploid bacteria are commonly used in genetic engineering experiments.
In humans, the egg and sperm cells are haploid.
The haploid phase of the plant life cycle is called the gametophyte.
Haploid cells contain half the genetic information of diploid cells.
The haploid condition allows for genetic diversity through recombination.
Haploid bacteria reproduce through binary fission.
Some organisms alternate between haploid and diploid stages in their life cycles.
The pollen grain is a haploid structure essential for plant reproduction.
The haploid condition allows for rapid evolution and adaptation in certain organisms.
In humans, sperm and eggs are haploid cells that contain half the number of chromosomes found in other body cells.
The algae reproduce through haploid cells called gametes.
The haploid condition in certain algae allows for rapid adaptation to changing environments.
The researcher investigated the consequences of haploid induction in plants.
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