The correct answer to this question is for a fact true!
When and why this happens is because the members of that population get desperate (like limited supply of food, water, mates, or even habitats) so at that point of the situation all the creatures of that population are so desperate that they are willing to do everything and anything to survive. And then it becomes competition. That's one of the things that these 2 phrases are used for mainly:
"Every man is for himself"
"Survival for the fittest"
That is the answer to your question! If you need help with any other questions, just let me know and i will do my best to help you!
Hope this helps!! :-)
Answer:
Volvox live in colonies. Volvox use cilia to move.
Explanation:
the awnser is chyme hope i helped comment and tell me if i helped
The question is incomplete as it does not have the option which are:
- change the amount of energy needed for a reaction.
-
prevent the substrate from binding the enzyme's active site.
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change the type of substrate that binds the enzyme's active site.
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change the type of product produced in the reaction.
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prevent the enzyme from adding energy to a reaction
Answer
prevent the substrate from binding the enzyme's active site.
Explanation:
An Enzyme is a molecule composed of the amino acids in a 3 D conformation which catalyze or speed up a reaction.
The enzyme protein catalyses a chemical reaction by binding the substrate to its active pore formed by the 3D conformation of the protein and forming a complex of the substrate and enzyme.
If the 3D conformation of the enzyme is changed or altered then the active pore will be disrupted as a result of which the substrate-binding affinity and specificity will be changed which will not the reaction to proceed in forwarding direction or other terms the functionality of the protein will be lost.
Thus, the selected option is correct.
Answer:
DNA transposons, viral-like transposable elements, and non-LTR retrotransposons
Explanation:
Transposable Elements (TEs) are genetic mobile elements that can change its position within a genome, thereby producing mutations at the genomic sites where they are inserted. According to their composition and structure, TEs can be divided into three main types: DNA transposons, viral-like transposable elements, and non-long terminal repeat (non-LTR) retrotransposons (also known as polyA retrotransposons). In the first place, DNA transposons are composed of conserved inverted repeat sequences at both ends of the element which are surrounded by target site duplications (TSDs). Moreover, viral-like TEs contain LTRs and they encode reverse transcriptase enzymes. Finally, non-LTR retrotransposons contain a poly(A) tail at the 3′ end, but they don't have inverted repeats.