"Rougher" and "smoother" are comparative forms of the adjectives "rough" and "smooth," respectively. "Rougher" describes something that has a more uneven or coarse texture, while "smoother" refers to something that has a more even and soft texture. Essentially, they represent opposite qualities in texture or surface feel.
The two types are the smooth ER (Endoplasmic Reticulum) and the rough ER. The smooth ER makes steroids, and the rough ER transports proteins within the cell.
Rough ER has Ribosomes and Smooth ER does not.
An endoplasmic reticulum (ER) with ribosomes on its surface is called rough endoplasmic reticulum (RER). The ribosomes on the RER are responsible for protein synthesis, which is then transported to different parts of the cell for various functions.
Rough ER, "Rough" has no abbreviation unless you want to put it R. ER.
The rough ER had ribosomes attached while the smooth ER had no ribosome attached.
Smooth ER-synthesizes lipids and steroids, Rough ER-synthesizes proteins. Endoplasmic reticulum is rough when it contains Ribosomes.
rough er and smooth er
rough- ribosomes attached smooth- no ribosomes
rough- ribosomes attached smooth- no ribosomes
The two types are the smooth ER (Endoplasmic Reticulum) and the rough ER. The smooth ER makes steroids, and the rough ER transports proteins within the cell.
A rough er has ribosomes while a soft er does not
Rough ER has Ribosomes and Smooth ER does not.
Rough ER has Ribosomes and Smooth ER does not.
Rough ER has numerous ribosomes on its surface. These are absent on smooth ER. Smooth ER studded with ribosomes. Rough ER transport of materials.
The difference between ruff ER and smooth ER is ruff ER contains attached ribosomes giving it the rough appearance, where as smooth ER does not.
rough ER has a higher proportion of ribosomes within, hence the 'rough' appearance
An endoplasmic reticulum (ER) with ribosomes on its surface is called rough endoplasmic reticulum (RER). The ribosomes on the RER are responsible for protein synthesis, which is then transported to different parts of the cell for various functions.