Mitochondria is present in the cell cytoplasm...it is usually the egg which contributes most of the cytoplasmic contents to the zygote.. hence mt is inherited frm the egg.. otherwise called extranuclear or maternal inheritance.
All mitochondria are from mother.No mitochondria inherit from father
Mitochondria are the organelle that have their own DNA, which is inherited through the maternal line (from mother to child).
Mitochondria are able to replicate by themselves. When mitochondria replicate, a copy of the mitochondrial DNA is present in the daughter mitochondria as well. This is how they are passed on. Edit: Mitochondrial DNA is passed on maternally (ie the mito. that replicate in a new organism are derived from the mother/egg).
Mitochondrial DNA (mtDNA) is inherited exclusively from the mother because the mitochondria in the sperm are typically destroyed during fertilization. This means that all the mitochondria in the developing embryo come from the egg cell. As a result, the offspring's mtDNA is a direct maternal lineage, reflecting the genetic material passed down from the mother.
Mitochondria are found in the cytoplasm of all cells, including those of males. They are responsible for producing energy in the form of ATP through a process called cellular respiration. Mitochondria are inherited maternally and are present in both male and female cells.
All mitochondria are from mother.No mitochondria inherit from father
Mitochondrial diseases are exclusively inherited from the mother because mitochondria, the energy-producing structures in cells, are passed down from the mother's egg cell to the offspring. Sperm cells do not contribute mitochondria to the embryo, so any genetic mutations in the mitochondria will only be inherited from the mother.
Mitochondria are the organelle that have their own DNA, which is inherited through the maternal line (from mother to child).
Mitochondria are able to replicate by themselves. When mitochondria replicate, a copy of the mitochondrial DNA is present in the daughter mitochondria as well. This is how they are passed on. Edit: Mitochondrial DNA is passed on maternally (ie the mito. that replicate in a new organism are derived from the mother/egg).
Fathers do not pass on mitochondrial DNA to their offspring because mitochondria, which contain the DNA, are only inherited from the mother's egg cell. Sperm cells do not contribute mitochondria to the offspring during fertilization.
Nearly all eukaryotic cells, including plants, contain Mitoochondria.
Mitochondrial DNA (mtDNA) is inherited exclusively from the mother because the mitochondria in the sperm are typically destroyed during fertilization. This means that all the mitochondria in the developing embryo come from the egg cell. As a result, the offspring's mtDNA is a direct maternal lineage, reflecting the genetic material passed down from the mother.
Mitochondria are found in the cytoplasm of all cells, including those of males. They are responsible for producing energy in the form of ATP through a process called cellular respiration. Mitochondria are inherited maternally and are present in both male and female cells.
The organelle which is more abundant in muscle cells than in other cells is mitochondria. This is due to the fact that muscle cells require more energy than any other cells.
Nearly all eukaryotic cells, including plants, contain Mitoochondria.
So that lots of ATP can be produced, which can then release energy for active transport. Remember that epithelial cell are cells that release substances and can take substances in (exocytosis and endocytosis). This requires energy, so there are therefore lots of mitochondria.
All mitochondria in our cells are inherited from the mother because they are passed down through the egg during fertilization. The sperm contributes only nuclear DNA and not mitochondria, which are primarily located in the tail of the sperm and do not enter the egg. This maternal inheritance pattern ensures that mitochondrial DNA is maintained across generations, allowing for specific lineage tracking and studies in evolutionary biology.