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Mutations can be passed on to future generations when they occur in the DNA of germ cells (sperm and egg cells) that are involved in reproduction. These mutations can be inherited by offspring and become a part of their genetic makeup.
Mutated DNA can have an effect on future offspring because DNA is the coding of life a mistake can cause genetic diseases or even death. The genetic code is half paternal and half maternal so if there is any genetic mistake in their DNA can then get passed on through the generations.
Yeast is a living organism as it exhibits characteristics such as growth, metabolism, and reproduction. These can be observed through experiments showing yeast cells breaking down sugars to produce energy, forming new cells through budding or division, and responding to environmental stimuli. Additionally, yeast cells contain organelles like mitochondria and a nucleus, which are characteristic of living cells.
During alternation of generations, cells can reproduce by either mitosis or meiosis. Mitosis produces genetically identical cells for growth and maintenance, while meiosis creates genetically diverse gametes for sexual reproduction.
Yes, an altered gene in a zygote can be inheritable as it becomes part of the offspring's genetic makeup. This alteration can be passed on to future generations through the germline cells.
Everything except what you're measuring. EXAMPLE: In a biological experiment using specially treated cells the experiment is run with the cells; this is the experiment. Then the experiment is run again with the same cells WITHOUT the special treatment; this is the control.
Somatic cells are body cells. Genetically modifying them might have an influence of the subject on which the procedure was carried out but will not have any direct influence on future generations. Genetic alternation of germ cells however, will have an effect on future generations.
Two, because the cell splits itself in half.
Mutations can be passed on to future generations when they occur in the DNA of germ cells (sperm and egg cells) that are involved in reproduction. These mutations can be inherited by offspring and become a part of their genetic makeup.
Mutated DNA can have an effect on future offspring because DNA is the coding of life a mistake can cause genetic diseases or even death. The genetic code is half paternal and half maternal so if there is any genetic mistake in their DNA can then get passed on through the generations.
Gurdon's experiment proved that a cell's genetic potential do not diminish as the cell became specialized, disproving the conclusion of Robert Briggs and Thomas King following their failures to clone from differentiated cells in their 1952 landmark tadpole experiment. Gurdon's results electrified the scientific community, but some scientists remained skeptical and began to find flaws in his work.
Yeast is a living organism as it exhibits characteristics such as growth, metabolism, and reproduction. These can be observed through experiments showing yeast cells breaking down sugars to produce energy, forming new cells through budding or division, and responding to environmental stimuli. Additionally, yeast cells contain organelles like mitochondria and a nucleus, which are characteristic of living cells.
Incubating cells with a labeled molecule is the first step in a pulse-chase experiment.
Yes, transformed cells have the ability to pass their newly-acquired traits onto succeeding generations. This is because the transformation process often involves integrating foreign genetic material into the cell's genome, which can be inherited by daughter cells during cell division. As a result, the traits conferred by the transformed cells can be maintained and passed on to subsequent generations.
phagocytosis
Definitely. Mr. Cater
Diploid and haploid cells do not have alternation of generations; this phenomenon occurs in multicellular organisms with a life cycle that alternates between haploid and diploid stages. Mutations can occur in both diploid and haploid cells, but they are more likely to have an impact in diploid cells due to their higher genetic complexity.