Table of contents

1. Introduction to Genetics51m
2. Mendel's Laws of Inheritance3h 37m
3. Extensions to Mendelian Inheritance2h 41m
4. Genetic Mapping and Linkage2h 28m
5. Genetics of Bacteria and Viruses1h 21m
6. Chromosomal Variation1h 48m
7. DNA and Chromosome Structure56m
8. DNA Replication1h 10m
9. Mitosis and Meiosis1h 34m
10. Transcription1h 0m
11. Translation58m
12. Gene Regulation in Prokaryotes1h 19m
13. Gene Regulation in Eukaryotes44m
14. Genetic Control of Development44m
15. Genomes and Genomics1h 50m
16. Transposable Elements47m
17. Mutation, Repair, and Recombination1h 6m
18. Molecular Genetic Tools19m
- Genetic Cloning
  9m
- Methods for Analyzing DNA
  9m
19. Cancer Genetics29m
- Overview of Cancer
  21m
- Cancer Mutations
  7m
20. Quantitative Genetics1h 26m
21. Population Genetics50m
- Hardy Weinberg
  19m
- Allelic Frequency Changes
  31m
22. Evolutionary Genetics29m

15. Genomes and Genomics

Proteomics

Genetics

15. Genomes and Genomics

Proteomics

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1:38 minutes

Problem 1

Textbook Question

In this chapter, we focused on the analysis of genomes, transcriptomes, and proteomes and considered important applications and findings from these endeavors. At the same time, we found many opportunities to consider the methods and reasoning by which much of this information was acquired. From the explanations given in the chapter, what answers would you propose to the following fundamental questions?

How can proteomics identify differences between the number of protein-coding genes predicted for a genome and the number of proteins expressed by a genome?

Verified step by step guidance

Understand that proteomics is the large-scale study of proteins, particularly their structures and functions.

Recognize that the number of protein-coding genes in a genome does not always match the number of proteins expressed due to processes like alternative splicing and post-translational modifications.

Identify that proteomics uses techniques such as mass spectrometry to analyze the protein content of a cell or organism, providing a direct measure of the proteins present.

Consider that by comparing the proteomic data with genomic predictions, scientists can identify discrepancies between predicted gene numbers and actual protein expression.

Acknowledge that these differences can reveal insights into gene regulation, expression patterns, and the functional complexity of the proteome.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Proteomics

Proteomics is the large-scale study of proteins, particularly their functions and structures. It involves analyzing the complete set of proteins expressed by a genome under specific conditions, allowing researchers to understand protein abundance, modifications, and interactions. This field is crucial for identifying discrepancies between predicted protein-coding genes and the actual proteins produced, as it provides insights into post-translational modifications and alternative splicing events.

Gene Expression

Gene expression refers to the process by which information from a gene is used to synthesize functional gene products, typically proteins. This process is regulated at multiple levels, including transcription and translation, and can be influenced by various factors such as environmental conditions and cellular signals. Understanding gene expression is essential for interpreting why the number of expressed proteins may differ from the number of predicted protein-coding genes.

Alternative Splicing

Alternative splicing is a regulatory mechanism that allows a single gene to produce multiple protein isoforms by varying the combination of exons included in the final mRNA transcript. This process can lead to significant diversity in protein function and abundance, which may explain why the number of proteins expressed can exceed the number of protein-coding genes. Recognizing the role of alternative splicing is vital for understanding the complexities of proteomic data.

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Related Practice

Textbook Question

In Section 21.10 we briefly discussed the Human Proteome Map (HPM). An interactive Web site for the HPM is available at http://www.humanproteomemap.org. Visit this site, and then answer the questions in parts (a) and (b) and complete part (c).How many proteins were identified in this project?

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Textbook Question

Genomic sequencing has opened the door to numerous studies that help us understand the evolutionary forces shaping the genetic makeup of organisms. Using databases containing the sequences of 25 genomes, scientists examined the relationship between GC content and global amino acid composition [Kreil, D. P., and Ouzounis, C. A. (2001) Nucl. Acids Res. 29:1608–1615]. They found that it is possible to identify thermophilic species on the basis of their amino acid composition alone, which suggests that evolution in a hot environment selects for a certain whole organism amino acid composition. In what way might evolution in extreme environments influence genome and amino acid composition? How might evolution in extreme environments influence the interpretation of genome sequence data?

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Multiple Choice

SDS-PAGE is a method used to separate proteins by which of the following characteristics?

Which of the following methods would be best to identify an amino acid sequence of a protein?

How do high-throughput techniques such as computer-automated, next-generation sequencing, and mass spectrometry facilitate research in genomics and proteomics? Explain.

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Textbook Question

Based on the tree of life in Figure 16.12, would you expect human proteins to be more similar to fungal proteins or to plant proteins? Would you expect plant proteins to be more similar to fungal proteins or to human proteins?

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Textbook Question

The CBF genes of Arabidopsis are induced by exposure of the plants to low temperature.Can you design a method that would reveal these changes in gene expression in a way that a farmer could recognize them by observing plants growing in the field?

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Textbook Question

The CBF genes of Arabidopsis are induced by exposure of the plants to low temperature.How would you examine the temporal and spatial patterns of expression after induction by low temperature?