Yes, I believe it's <span>A. must be testable. So it can either be proven or disproved.
</span><span>
</span>
Answer:
The template strand is the antisense strand or non-coding strand with polarity in the direction of 3' to 5' end which codes for the primary RNA molecule.
The template strand codes for the proteins through transcription and translation. The transcription creates a copy of the sense strand in the form of RNA as RNA polymerase binds the promoter and adds nucleotides in 3' to 5' direction.
The mRNA molecule formed as a result of transcription contains code in the form of codon or triplets of nitrogenous bases which are read by the ribosomes and specific amino acids are added to the growing polypeptide chain via tRNA molecule.
Thus, a template strand codes for amino acids.
I'm not sure if this is a multiple choice question. But, my answer would probably have to be, feces. When an animal passes foods, it adds nutrients to the earth, and when plants die they also go into the earth to help fortify and regurgitate it. Hope this helps. :D
The answer is <u>B: a mutation inhibiting human immunodeficiency virus from entering the host cell</u>
Here's what he must do:
-- Run the experiment again, several times if possible. Combine or
analyze
the results of the several experimental runs in some statistically
valid way.
-- Run the simulation again, several times. Combine or analyze the results
of the several simulations in some statistically valid way.
-- Then, compare the analysis of several experimental runs with the analysis
of several simulations, in some statistically valid way, to decide whether they
<em>really</em> don't track.
-- If they do, then look for ways to tighten up the simulation so that maybe
they can track better.
-- If they don't, then he's back to <em>before</em> Square-1. He not only has to
deal with the question of whether or not his experiment is valid, but he
also has to consider the possibility that his simulation is trash and
doesn't actually model nature like he expected it to.
