1.) <span>To be useful, a scientific name has to refer to all living species.
</span>2.) Several different classes make up a <span>phylum.
3.) </span>Which are the two highest-level taxa in the Linnaean system? phylum and kingdom.
4.) <span>Animals that are warm-blooded, have body hair, and produce milk for their young are grouped in the class Amphibia.
5.) </span><span>The only "natural" taxa in Linnaeus's system is the </span><span>species.
</span>
The correct answer is 50.
Proteins are complex biomolecules made out of amino-acids bound together with peptide bonds. They can be comprised out of thousands of several polypeptide chains with thousands of amino-acids organised in complex structures. But, some of them can contain only around 50 amino-acid and still posses all of the complex traits of an protein.
Some polypeptides contain only 3 amino-acids, but technically they are not classified as proteins due to a big functional and structural differences between a simple polypeptide chain and a protein. Proteins are made out polypeptide chains, but this is only the primary structure of an protein. the polypeptide chains in a protein are organized into complex 3D structures that give them novel traits and complexity as compared to plain polypeptide chains.
Explanation:
The surplus carbon is stored in the plant, helping it to grow. however when trees are cut down and burned or allowed to rot, their stored carbon is released into the air as carbon dioxide .
Answer:
punnett square
Explanation:
The punnett square refers to the grid structure that is used to predict the outcome of a genetic cross. It was first developed by Reginald Punnett and hence named so. For the purpose, the types of gametes and their respective frequencies from a parent are written across the top. The gametes and their frequencies from the other parent are written on the left side of the grid. The squares are then filled in with the resulting combinations of gametes from the two parents. In this way, a punnett square allows direct calculation of the probabilities of occurrence of all possible offspring of a genetic cross.
