Yes they are same.
No its entirely different. Chromatin paper is uses to separate colors. I think its more similar to foil than construction paper.
Chromosomes exist [in interphase] as de-condensed, or free, potential chromatin; while chromatin is chromosomes that are condensed [wound] around histone proteins. This condensation, or packing, of the chromosomes occurs in two stages: first the Dna strand is wound around Histone proteins that then spiral into The Ten Nanometer Fiber. This spiraled compact 10 nm fiber is then further wound up into the Thirty Nanometer Fiber, the chromatin, which is then further folded [condensed] into The Chromosomes.
Chromatin is a complex of DNA and proteins found in the nucleus of eukaryotic cells. It plays a role in regulating gene expression by compacting the DNA into a compact structure. Chromatin can change its structure by being condensed into tightly packed heterochromatin or more relaxed euchromatin.
Yes, plant cells have endoplasmic reticulum (ER). There are two types of ER in plant cells: rough endoplasmic reticulum (RER) which is involved in protein synthesis, and smooth endoplasmic reticulum (SER) which is involved in lipid metabolism and detoxification processes.
The cardiovascular system performs the same functions as the endoplasmic reticulum. Both systems regulate temperature and perform transporting duties.
They are both the same thing except for one thing that is the rough endoplasmic reticulum has ribosomes around it .
They are both the same thing except for one thing that is the rough endoplasmic reticulum has ribosomes around it .
They are both the same thing except for one thing that is the rough endoplasmic reticulum has ribosomes around it .
No, they are not the same, but they share a common target (the pallidum). Subthalamopallidal fibers project from the subthalamic nucleus to the globus pallidus. Striatopallidal fibers project from the striatum into the globus pallidus.
No its entirely different. Chromatin paper is uses to separate colors. I think its more similar to foil than construction paper.
They have the same origin.
The smooth ER is similiar.
Chromatin is always present in a cell. The term "chromatin" refers to the "relaxed" form of chromosomes when the cell is not dividing.In a nutshell:Just prior to mitosis,(the S-phase of the cell cycle), the cell makes a copy of each chromosome which is joined to the original. It is in the first step of mitosis- "Prophase" that the chromatin condenses by coiling up even tighter, and getting fatter- forming the familiar "X" we see in drawings and in our textbooks.As mitosis progresses, the fat X-shaped chromosome is pulled apart, each half going to a different side of the cell. The cell now constricts down the center, and splits in half (M stage) , forming two cells. Each cell should have the same number of chromosomes that the original "parent cell" had. The chromosomes relax again, the cell grows (G1), duplicates the chromosomes (S), prepares for mitosis (G2), then divides (M). Ad infinitum.
Yes. Chromatin refers to DNA in its native state in a cell - wrapped around histone proteins. Therefore, because DNA contains all the instructions to generate proteins and thereby influence cell activity the same can be accurately said of chromatin as well.
Plant and Animal cells both have many things. They have a nucleus, mitochondria, ribosome, smooth endoplasmic reticulum, rough endoplasmic reticulum, Golgi body, Nucleolus, chromatin threads, cell membranes, and many more. The best way to say it is to say plant and animal cells have the same things, except that plant cells have chloroplast and a cell wall and animals do not.
Chromosomes exist [in interphase] as de-condensed, or free, potential chromatin; while chromatin is chromosomes that are condensed [wound] around histone proteins. This condensation, or packing, of the chromosomes occurs in two stages: first the Dna strand is wound around Histone proteins that then spiral into The Ten Nanometer Fiber. This spiraled compact 10 nm fiber is then further wound up into the Thirty Nanometer Fiber, the chromatin, which is then further folded [condensed] into The Chromosomes.
Chromatin is a complex of DNA and proteins found in the nucleus of eukaryotic cells. It plays a role in regulating gene expression by compacting the DNA into a compact structure. Chromatin can change its structure by being condensed into tightly packed heterochromatin or more relaxed euchromatin.