Videos
A.
To explain: Whether the positions of exons and introns in the
Concept introduction:
Diagon plot is a graphical method commonly used in bioinformatics for the comparison of two biological sequences and to identify regions of close similarity between them. The plot compares two sequences by organizing one sequence on the X- axis and another on the Y-axis of the plot. When the sequences match at the same location, a dot is drawn at the corresponding position in the plot.
B.
To explain: The differences between the exons of human
Concept introduction:
Diagon plot is a graphical method commonly used in bioinformatics for the comparison of two biological sequences and to identify regions of close similarity between them. The plot compares two sequences by organizing one sequence on the X- axis and another on the Y-axis of the plot. When the sequences match at the same location, a dot is drawn at the corresponding position in the plot.
C.
To explain: Whether there is any sequence similarity between the human and mouse
Concept introduction:
Diagon plot is a graphical method commonly used in bioinformatics for the comparison of two biological sequences and to identify regions of close similarity between them. The plot compares two sequences by organizing one sequence on the X- axis and another on the Y-axis of the plot. When the sequences match at the same location, a dot is drawn at the corresponding position in the plot.
D.
To explain: Whether the mouse or human gene undergoes a change of intron length during their evolutionary divergence.
Concept introduction:
Diagon plot is a graphical method commonly used in bioinformatics for the comparison of two biological sequences and to identify regions of close similarity between them. The plot compares two sequences by organizing one sequence on the X- axis and another on the Y-axis of the plot. When the sequences match at the same location, a dot is drawn at the corresponding position in the plot.
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Chapter 9 Solutions
ESSENTIAL CELL BIOLOGY (LL)-TEXT
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- Identify the indicated structure. (Cucurbita stem l.s.) pit lenticel stomate tendril none of thesearrow_forwardIdentify the specific cell? (Zebrina leaf peel) vessel element sieve element companion cell tracheid guard cell subsidiary cell none of thesearrow_forwardWhat type of cells flank the opening on either side? (leaf x.s.) vessel elements sieve elements companion cells tracheids guard cells none of thesearrow_forward
- What specific cell is indicated. (Cucurbita stem I.s.) vessel element sieve element O companion cell tracheid guard cell none of thesearrow_forwardWhat specific cell is indicated? (Aristolochia stem x.s.) vessel element sieve element ○ companion cell O O O O O tracheid O guard cell none of thesearrow_forwardIdentify the tissue. parenchyma collenchyma sclerenchyma ○ xylem O phloem O none of thesearrow_forward
- Please answer q3arrow_forwardRespond to the following in a minimum of 175 words: How might CRISPR-Cas 9 be used in research or, eventually, therapeutically in patients? What are some potential ethical issues associated with using this technology? Do the advantages of using this technology outweigh the disadvantages (or vice versa)? Explain your position.arrow_forwardYou are studying the effect of directional selection on body height in three populations (graphs a, b, and c below). (a) What is the selection differential? Show your calculation. (2 pts) (b) Which population has the highest narrow sense heritability for height? Explain your answer. (2 pts) (c) If you examined the offspring in the next generation in each population, which population would have the highest mean height? Why? (2 pts) (a) Midoffspring height (average height of offspring) Short Short Short Short (c) Short (b) Short Tall Short Tall Short Short Tall Midparent height (average height of Mean of population = 65 inches Mean of breading parents = 70 inches Mean of population = 65 inches Mean of breading parents = 70 inches Mean of population = 65 inches Mean of breading parents = 70 inchesarrow_forward
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