Practical Skills in Biomolecular Sciences, 4th edition
By Rob Reed, et al.
August 2013
Pearson Education
Distributed by Trans-Atlantic Publications
ISBN 9781408245521
553 Pages, Illustrated
$87.50 Paper original 
If you are a studying within the biomolecular sciences (including biochemistry, biomedical sciences, biotechnology, genetics, microbiology and molecular biology) then this book will be an indispensable companion throughout the whole of your degree programme. It provides effective support for the development of the laboratory and data analysis skills that you will draw on time and again for the practical aspects of your studies, and also gives you a solid grounding in the broader transferable skills which are increasingly necessary to achieve a high level of academic success.
Now in its fourth edition, Practical Skills in Biomolecular Sciences has been enhanced and updated throughout to provide a complete and easy-to-read guide to developing all of the skills you need from your first day through to graduation, establishing its reputation as the practical resource for students of the biomolecular sciences.
Contents:
STUDY AND EXAMINATION SKILLS
1 The importance of transferable skills
2 Managing your time
3 Working with others
4 Taking notes from lectures and texts
5 Learning effectively
6 Revision strategies
7 Assignments and exams
8 Preparing your curriculum vitae
INFORMATION TECHNOLOGY AND LEARNING RESOURCES
9 Finding and citing published information
10 Evaluating information
11 Using online resources
12 Bioinformatics - Internet resources
13 Using Spreadsheets
14 Using word processors, databases and other packages
COMMUNICATING INFORMATION
15 Organising a poster display
16 Giving a spoken presentation
17 General aspects of scientific writing
18 Writing essays
19 Reporting practical and project work
20 Writing literature surveys and reviews
FUNDAMENTAL LABORATORY TECHNIQUES
21 Essentials of practical work
22 Bioethics
23 Health and safety
24 Working with liquids
25 Basic laboratory procedures
26 Principles of solution chemistry
27 pH and buffer solutions
28 Introduction to microscopy
29 Setting up and using a light microscope
THE INVESTIGATIVE APPROACH
30 Making measurements
31 SI units and their use
32 Scientific method and design of experiments
33 Making notes of practical work
34 Project work
WORKING WITH CELLS AND TISSUES
35 Sterile technique
36 Culture systems and growth measurement
37 Collecting and isolating microbes
38 Identifying microbes
39 Naming microbes and other organisms
40 Working with animal and plant tissues and cells
41 Homogenisation and fractionation of cells and tissues
ANALYTICAL TECHNIQUES
42 Calibration and its application to quantitative analysis
43 Immunological methods
44 Using stable isotopes
45 Using radioisotopes
46 Light measurement
47 Basic spectroscopy
48 Advanced spectroscopy and spectrometry
49 Centrifugation
50 Chromatography - separation methods
51 Chromatography - detection and analysis
52 Principles and practice of electrophoresis
53 Advanced electrophoretic techniques
54 Electroanalytical techniques
ASSAYING BIOMOLECULES AND STUDYING METABOLISM
55 Analysis of biomolecules: fundamental principles
56 Assaying amino acids, peptides and proteins
57 Assaying lipids
58 Assaying carbohydrates
59 Assaying nucleic acids and nucleotides
60 Protein purification
61 Enzyme studies
62 Membrane transport processes
63 Photosynthesis and respiration
GENETICS
64 Mendelian genetics
65 Bacterial and phage genetics
66 Molecular genetics I - fundamental principles
67 Molecular geneti cs II - PCR and related applications
68 Molecular genetics III - genetic engineering techniques ?rDNA techs?
ANALYSIS AND PRESENTATION OF DATA
69 Manipulating and transforming raw data
70 Using graphs
71 Presenting data in tables
72 Hints for solving numerical problems
73 Descriptive statistics
74 Choosing and using statistical tests
Return to main page of Trans-Atlantic Publications