The ribosome plays a significant part in protein amalgamation inside a cell. Its fundamental reason is to encourage the interpretation of hereditary data from courier RNA (mRNA) into proteins.
The ribosome plays a significant part in protein amalgamation inside a cell. Its fundamental reason is to encourage the interpretation of hereditary data from courier RNA (mRNA) into proteins.
Proteins are imperative particles that perform different capacities within the cell, counting enzymatic responses, auxiliary back, cell signaling, and transportation of particles. The ribosome acts as a atomic machine that collects amino acids, the building pieces of proteins, into particular groupings managed by the mRNA format.
The ribosome comprises of two subunits, a huge subunit and a little subunit, each composed of proteins and ribosomal RNA (rRNA). The little subunit ties to the mRNA particle, whereas the huge subunit joins amino acids together to create a polypeptide chain.
Learn more about ribosome below.
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Answer:
To make Protein of course!
Explanation:
Function of Ribosomes. Ribosomes are a cell structure that makes protein. Protein is needed for many cell functions such as repairing damage or directing chemical processes. Ribosomes can be found floating within the cytoplasm or attached to the endoplasmic reticulum. ... Proteins are an essential part of all cells.
B. Viruses are not living.
C. Viruses have organelles.
D. Viruses can reproduce by themselves.
B. Viruses are not living.
A virus is nothing more than a packet of genetic material that does not display the characteristics of living organisms.
Viruses are not living and they do not have organelles or produce their own energy.
The correct statement regarding viruses is B. Viruses are not living.
Viruses are considered non-living because they lack the necessary characteristics to be classified as living organisms. While they can infect and replicate within a host cell, they are unable to carry out essential life processes on their own.
Unlike cells, viruses do not have organelles and cannot produce their own energy. They are composed of genetic material surrounded by a protein coat, and they rely on host cells to replicate.
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Answer:
Maintaining structure.
Explanation:
The cut heals to maintain structure.
The common ancestors of these owls were geographically isolated, but can still interbreed, as the allele frequencies have likely not changed much.
The common ancestors of these owls were temporally isolated, but can still interbreed, as the allele frequencies have likely not changed much.
The common ancestors of these owls were geographically isolated, and over time the allele frequencies changed so much they are no longer able to interbreed.
The common ancestors of these owls were temporally isolated, and over time the allele frequencies changed so much they are no longer able to interbreed.
Answer:
C. The common ancestors of these owls were geographically isolated, and over time the allele frequencies changed so much they are no longer able to interbreed.
Explanation:
This is an example of allopatric speciation. Allopatric speciation, also called geographical speciation, involves the development of a new species when the ancestral population becomes separated by geographical barriers such as a river or a mountain range. This could also take place when the ancestors of the two species emigrate to another area.
In different geographic locations, the separated ancestors undergo gradual evolutionary changes, ultimately, the the two species become so genetically diverse that they cannot interbreed.
Answer:
C is correct for future users
Explanation:
Answer:
Process that involves rearrangement of the molecular or ionic structure of a substance, as distinct from a change in physical form or a nuclear reaction Hope this helps! Have a great day!