Genetic crosses between two strains, each containing a mutation in the same gene, are occasionally observed to yield nonmutant, that is, wild-type, progeny. This is the result of a crossover in which the two parental DNA molecules are precisely broken, exchanged, and rejoined.

This section describes phenomenon of recombination and the next section describes experiments that make use of recombination to order genetic markers on chromosomes.

Alignment of the pairs of homologous chromosomes during meiosis has long been known through observations with light microscopes. The subsequent movement of visually identifiable sites on the chromosomes suggested that homologous chromosomes were broken and portions exchanged in a process called crossing over or recombination. Although recombination was first observed in eukaryotic cells, it appears to be almost ubiquitous. Even simple bacterial viruses can engage in genetic recombination. The bacterial phage experiments were particularly important to the development of the field because phage provided a simple and small system with few variables, a high sensitivity for recombinants, and a very short generation time. These properties permitted many experiments to be done rapidly and inexpensively.

Phage mutants can easily be isolated that yield plaque morphologies different from the normal or wild-type. This is done simply by plating mutagenized phage on cells and locating the occasional different plaque. Nonsense mutations in essential phage genes may be identified as phage that grow only on nonsense-suppressing host cells. Genetic recombination between phage can be revealed by co-infection of cells with two mutants at a sufficiently high multiplicity of infection that each cell is infected with both types of phage (Fig. 1). Some of the progeny phage are found to carry alleles from both of the input phage! Since the phage carry only one DNA copy, such progeny have to be recombinants carrying some of the genetic information from each of the parental phage types. The discovery of genetic recombination in phage by Del brück and Hershey opened the way for intensive study of the phenomenon of genetic recombination at the molecular level.

Fig1. Co-infection of a single cell by phage of two different genotypes permits recombination to produce output phage of wild type in addition to output phage of the parental types.

اخر الاخبار

اخبار العتبة العباسية المقدسة

قسم الشؤون الطبية ينهي تحضيراته لحفل تخرج بنات الكفيل بنسخته التاسعة

جناح العتبة العباسية المقدسة في معرض الكتاب بجامعة وارث الأنبياء يشهد إقبالاً واسعاً

العتبة العباسية المقدسة وفلسفة الاحتفاء بالعلم والمرأة المؤمنة

مدارس الكفيل النسوية تعقد اجتماعها الختامي الخاص بتحضيرات حفل تخرج طالبات الجامعات

المزيد

الآخبار الصحية

خبراء تغذية يكشفون أفضل الطرق الصحية لطهي البيض

كيف يؤثر الرمان على صحة قلبك وذاكرتك وبشرتك؟

تبييض الأسنان.. تحذير من منتجات "خطيرة" تباع عبر الإنترنت

الإنفلونزا المزمنة.. تهديد "خطير" للقلب والدماغ ؟

المزيد

الآخبار التكنلوجية

التشتت أثناء القيادة: خطر القيادة العمياء وحلول الوقاية

بمنافس جديد.. إيلون ماسك يتحدى "ويكيبيديا"

الذكاء الاصطناعي ينافس الأطباء في منع السكري قبل ظهوره ؟!

لماذا تعجز عن التركيز صباحا؟ دراسة تكشف السبب "الخفي"

المزيد

مواضيع ذات صلة

Transmission of the Genome

Genetic Biomarkers Associated with Cardiovascular Diseases

BCR-ABL1 and Tyrosine Kinase Inhibitors in Chronic Myeloid Leukemia

SLCO1B1 and Methotrexate

Pharmacogenomics of Warfarin

Glucocorticoid Pharmacogenomics in Childhood Acute Lymphoblastic Leukemia

Pharmacogenomics of Thiopurines in Childhood Leukemia

Using Genetics to Begin Study of Developmental Systems

Outline of Early Drosophila Development

Chromosome Mapping

Physical and Genetic Maps of Chromosomes

Fate Mapping and Study of Tissue-Specific Gene Expression