It is highly suggested by observation that the few genes left to mitochondria to synthesize some proteins are prokaryote in nature as they are circular in the structure of the single chromosome.
yes, they are inside the nucleus in the nucleoid... they can also be found in mitochondria and chloroplasts
Genes are found within the DNA code of chromosomes in both eukaryotes and prokaryotes. Chromosomes are found in the nucleus of eukaryotes.
ATP
On the DNA in the nucleus and mitochondria
There are four basic types of mitochondria. Each type is distinguished by if or how ATP is produced. One mitochondrial type is found in the cells of mammals and respires carbon dioxide during pyruvate breakdown and ATP synthesis. End products are water and carbon dioxide. Another type of mitochondria is found in certain intestinal parasites. This type, called mitosomes, is small and inconspicuous and are not involved in ATP synthesis at all. As for chloroplasts, there is only one type. However, there are three different cholorplast genes that can exist based on RNA transcription.
Yes, but check mitochondria.
They are found in both type of cells. Mitochondria are essential for cellular respiration
plants and animal cells
Yes,They have genes inside.They have circular DNA.
Nucleus,chloroplast,mitochondria,plasmidsthe mitochondria and chloroplast.DNA is found in the nucleus.DNA is generally located in the nucleus of a cell. There is some DNA in the mitochondria although there is significantly more DNA in the nucleus.In animal cells, DNA can be found in the nucleus and mitochondria of cells. In plant cells, DNA can be found in the nucleus, mitochondria, and chloroplast.
yes, they are inside the nucleus in the nucleoid... they can also be found in mitochondria and chloroplasts
Genes are found within the DNA code of chromosomes in both eukaryotes and prokaryotes. Chromosomes are found in the nucleus of eukaryotes.
There are four basic types of mitochondria. Each type is distinguished by if or how ATP is produced. One mitochondrial type is found in the cells of mammals and respires carbon dioxide during pyruvate breakdown and ATP synthesis. End products are water and carbon dioxide. Another type of mitochondria is found in certain intestinal parasites. This type, called mitosomes, is small and inconspicuous and are not involved in ATP synthesis at all. As for chloroplasts, there is only one type. However, there are three different cholorplast genes that can exist based on RNA transcription.
There are four basic types of mitochondria. Each type is distinguished by if or how ATP is produced. One mitochondrial type is found in the cells of mammals and respires carbon dioxide during pyruvate breakdown and ATP synthesis. End products are water and carbon dioxide. Another type of mitochondria is found in certain intestinal parasites. This type, called mitosomes, is small and inconspicuous and are not involved in ATP synthesis at all. As for chloroplasts, there is only one type. However, there are three different cholorplast genes that can exist based on RNA transcription.
ATP
On the DNA in the nucleus and mitochondria
There are four basic types of mitochondria. Each type is distinguished by if or how ATP is produced. One mitochondrial type is found in the cells of mammals and respires carbon dioxide during pyruvate breakdown and ATP synthesis. End products are water and carbon dioxide. Another type of mitochondria is found in certain intestinal parasites. This type, called mitosomes, is small and inconspicuous and are not involved in ATP synthesis at all. As for chloroplasts, there is only one type. However, there are three different cholorplast genes that can exist based on RNA transcription.