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This work offers a fascinating insight into a crucial genetic process. Recombination is, quite simply, one of the most important topics in contemporary biology. This book is a totally comprehensive treatment of the subject, summarizing all existing views on the topic and at the same time putting them into context. It provides in-depth and up-to-date analysis of the chapter topics, and has been written by international experts in the field.
Restriction enzymes are highly specific nucleases which occur ubiquitously among prokaryotic organisms, where they serve to protect bacterial cells against foreign DNA. Many different types of restriction enzymes are known, among them multi-subunit enzymes which depend on ATP or GTP hydrolysis for target site location. The best known representatives, the orthodox type II restriction endonucleases, are homodimers which recognize palindromic sequences, 4 to 8 base pairs in length, and cleave the DNA within or immediately adjacent to the recognition site. In addition to their important biological role (up to 10 % of the genomes of prokaryotic organisms code for restriction/modification systems!), they are among the most important enzymes used for the analysis and recombination of DNA. In addition, they are model systems for the study of protein-nucleic acids interactions and, because of their ubiquitous occurence, also for the understanding of the mechanisms of evolution.
Unique in in its focus on eukaryotic molecular biology, this textbook provides a distillation of the essential concepts of molecular biology, supported by current examples, experimental evidence, and boxes that address related diseases, methods, and techniques. End-of-chapter analytical questions are well designed and will enable students to apply the information they learned in the chapter. A supplementary website include self-tests for students, resources for instructors, as well as figures and animations for classroom use.
The second edition explains the principles of recombinant DNA technology as well as other important techniques such as DNA sequencing, the polymerase chain reaction, and the production of monclonal antibodies.
"Basic Concepts in Biochemistry has just one goal: to review the toughest concepts in biochemistry in an accessible format so your understanding is through and complete."--BOOK JACKET.
Vols. for 1963- include as pt. 2 of the Jan. issue: Medical subject headings.
Many processes in the genetic life of the cell require the specific interaction between proteins and DNA. While DNA is normally thought of as a straight double helix, it can be distorted by bending and twisting. These alterations are critical to a number of cellular processes, including transcription, recombination, and the repair of DNA damage. An interesting group of proteins has the important role of recognizing and manipulating DNA structure. This book draws together findings from different areas in molecular biology to elucidate the importance of DNA structure in the interactions between proteins and DNA, and to generate a new perspective on these vital processes. The book is intended for researchers and graduate students in molecular biology, biochemistry, biophysics, and structural biology.
Most genes are lined up on chromosomes like pearls on a string. However, a certain class of genes differ by being highly mobile; and the mecha they are termed transposons. Their properties of transposition will be described in this book. nism is the rule, irregularities like a spot on a Where uniformity plain-coloured surface strike the eye. Thus the phenomenon of has long been a source of fascina variegation among organisms In plants, variegation is most easily recognised as irregulari tion. in pigment patterns on leaves, flowers and seeds, but other ties as leaf or flower form might also show characteristics such In 1588, such a variegation pattern was described in variegation. kernels of Zea mays by Jacob Theodor of Bergzabern, a village is so detailed that if south of Strasbourg. The report by Theodor one counts the different kernel phenotypes described it be is looking at a Mendelian segrega comes clear that the author had tion. It goes without saying that Latin-American Indians already bred such variegated material much earlier, but no descriptions have yet been uncovered. Meanwhile, genetically heritable variegation patterns have been described at many different loci in more than 34 different plant species.