Mitochondria and chloroplasts. The question asks for organelles with their OWN genetic material. The material from the nucleus already belongs to the cell. Those two evolved from symbiotic prokaryotes and maintain their own DNA.
The nucleus is the organelle that contains the genetic material of a cell.
mitochondria, lysosomes mitochondria, lysosomes
the two cell organelles which contain their own genetic material are nucleus and mitochondria
Nucleus and Mitochondria
chromosomes
is nucleus
chloroplasts and mitochondriaThey have their own DNA and can also reproduce by themselves inside the cell. That is why many scientist believe that the were once individual cells.
Cellular organelles are specialised structures within a cell that carry out specific functions. The major organelles are: Nucleus: This is the control centre of the cell containing the genetic material that controls the activities of the cell. Mitochondria: These are the energy factories of the cell converting food into energy for the cell. Endoplasmic reticulum: This is a network of membranes that transport proteins and other molecules within the cell. Ribosomes: These are small organelles that construct proteins from the instructions of the nucleus. Golgi apparatus: This organelle modifies packages and distributes proteins and lipids throughout the cell. Lysosomes: These are small organelles that contain digestive enzymes which break down and recycle cellular material. Vacuoles: These are large storage sacs that store food water enzymes and other molecules. Chloroplasts: These are found in plants and algae and are responsible for photosynthesis.The functions of these organelles are essential for the survival and growth of the cell as each organelle has its own unique job that helps keep the cell functioning.
Transgenic
Genetic material, composed of DNA that is packaged into string-like structures called chromatin, makes up a region called the nucleolus, which is inside the nucleus of a cell.In eukaryotes, the genetic material is found within the nucleus of the cell in a form of chromatins. In prokaryotes, the genetic material is suspended in a region known as nucleoid and also contains circular DNA called plasmids.
It's a part of the cell, and cells make up organisms, so therefore it is part of living creatures, but whether they themselves are "living" is more complicated. They perform necessary processes. There is also a theory that mitochondria were once individual prokaryotic organisms that were absorbed by other cells and over time became a part of those cells. This is supported by the genetic information we have about mitochondria. They contain their own genetic material (distinct from that of the cell they are in) and share other similarities with prokaryotic organisms.
mitochondria and lysosomes
Chloroplasts in plant cells and mitochondria in animal cells contain their own mitochondria
Nucleus & Mitochondria are the two organelles having their own genetic material.
mitochondria and plastids
chloroplasts and mitochondriaThey have their own DNA and can also reproduce by themselves inside the cell. That is why many scientist believe that the were once individual cells.
Their own set of genetic material still capable of coding for a few proteins which these organelles use. In a circular form that indicates their bacterial origins.
The mitochondria contain their own genetic material, in the form of circular chromosomes (like those of bacteria).
The mitochondria contain their own genetic material, in the form of circular chromosomes (like those of bacteria).
Both the mitochondria and chloroplasts (in plants) of eukaryotic cells contain their own genetic information. This is leftover from what is thought to be a symbiosis in early eukaryotic cells. It is assumed that these organelles were originally completely separate organisms, which found their way into larger organisms' cells due to the advantageous symbiotic relationship they could offer each other. Having compartments in cells turned out to be a massive evolutionary advantage, as it meant more complex, more specialised and more efficient reactions could take place in different organelles, where the conditions could be varied to suit the enzymes. Although much of the DNA (genetic material) that was originally in these organelles has now found its way into the host cell's nucleus with the rest of the cell's DNA, there is some still left in the organelles. Indeed, they still produce a few proteins themselves using this genetic material, but they also require the other proteins that are synthesised in the rest of the eukaryotic cell.
Mitochondria and Chloroplast.
Mictochondria and Chloroplasts
genetic material of their own