2016年2月8日 · Exon shuffling of either sort could lead to new proteins with novel combinations of functions. While most of the shuffling would result in nonbeneficial changes, occasionally a …

1. Which process seems to be the most similar between eukaryotic and prokaryotic genetic regulations? a. transcriptional regulation b. RNA splicing regulation c. intron/exon shuffling d. …

Question: value 1.00 points New genetic variations may occur because of (Check all that apply) new mutations gene duplications. exon shuffling random genetic drift.

Question: Choose four possible reasons that explain the importance of introns. Select the four correct answers. Introns allow for alternative splicing. The intron can be a microRNA itself that …

A) RNA splicing regulation B) transcriptional regulation C) intron/exon shuffling D) poly-A tail addition E) 5-capping regulation Your solution’s ready to go! Our expert help has broken down …

Exon shuffling is a proposal that relates exons in DNA to the repositioning of functional domains in proteins. What evidence exists in support of exon shuffling?Drag the terms on the left to the …

5. Explain what is exon shuffling. Why could it be an evolutionary advantage? How does exon shuffling differ from alternative splicing? How does alternative splicing increase the genome’s …

Answer to Exon shuffling is _____.Multiple choice question.the

Which of the following would contribute most to successful exon shuffling? Explain your answer and why the others would contribute less. (a) Shorter introns (b) A haploid genome (c) Exons …

Question: Mobile genetic elements are specialized DNA sequences that can move from one chromosomal location to another, which can alter the activity or regulation of a gene. These …