Name: Capillary Electrophoresis of Nucleic Acids Volume II Practical App
Author: Keith R Mitchelson Jing Cheng

أعلان

نحن نحترم حقوق الملكية الفكرية اذا رأيت كتاب له حقوق ملكية فضلاً أبلغنا فوراً لحذفه

بحث عن كتاب

أعلان

تحميل كتاب Capillary Electrophoresis of Nucleic Acids Volume II Practical App PDF

المؤلف : Keith R Mitchelson Jing Cheng

التصنيف : كتب منوعة

الفئة : Biology Books

سنة النشر : غير محدد

عدد الصفحات : غير محدد

عن الكتاب : نبذه عن الكتاب: 1. Introduction Since the first descriptions of electrophoresis in small diameter tubes in the 1970s and 1980s (1,2), capillary electrophoresis (CE) has been recognized for its potential to replace slab-gel electrophoresis for the analysis of nucleic acids (3,4). In particular, the availability of commercial instrumentation for CE over the last several years has made both the size determination and quantitation of DNA restriction fragments or polymerase chain reaction (PCR) products amenable to automation. Due to the same charge-to-mass ratio, the electrophoretic mobility of nucleic acid molecules in free solution is largely independent of their molecular size (5). Therefore, a sieving medium is required for the electrophoretic analysis of DNA fragments based on their size. Typically, two different principal types of separation matrix are used. The first type of matrix is of high viscosity polymer (e.g., polyacrylamide) with a well-defined crosslinked gel in regard to the structure and size of its pores. The second type of matrix is a noncrosslinked linear polymer network of materials such as, linear polyacrylamide, agarose, cellulose, dextran, poly(ethylene oxide), with lower viscosity than the former type and with a more dynamic pore structure. Although the first type of matrix is attached covalently to the capillary wall and may provide better separation for small (sequencing) fragments, the second matrix format has the advantage of being able to be replenished after each electrophoretic cycle. This typically extends the lifetime of a capillary, prevents contamination of the system, avoids sample carryover and allows the use of temperatures well above room temperature. Most matrices used in both systems are tolerant to the addition of DNA denaturants. Many different media useful for the separation of DNA have now become commercially available (6). In summary, the application of CE for DNA related research is attractive for numerous reasons: 1. The high degree of automation avoids cumbersome gel pouring and sample loading. 2. High mass sensitivity eliminates the need to label DNA with carcinogenic stains, or with radioactive DNA precursors .

أعلان

كتب pdf

أعلان

الملكية الفكرية محفوظة لمؤلف الكتاب المذكور فى حالة وجود مشكلة بالكتاب الرجاء الإبلاغ من خلال الايميل الخاص بنا فى صفحة حقوق النشر أو من خلال صفحتنا على الفيس بوك.

نبذة عن كتاب Capillary Electrophoresis of Nucleic Acids Volume II Practical App

كتاب Capillary Electrophoresis of Nucleic Acids Volume II Practical App

نبذه عن الكتاب: 1. Introduction Since the first descriptions of electrophoresis in small diameter tubes in the 1970s and 1980s (1,2), capillary electrophoresis (CE) has been recognized for its potential to replace slab-gel electrophoresis for the analysis of nucleic acids (3,4). In particular, the availability of commercial instrumentation for CE over the last several years has made both the size determination and quantitation of DNA restriction fragments or polymerase chain reaction (PCR) products amenable to automation. Due to the same charge-to-mass ratio, the electrophoretic mobility of nucleic acid molecules in free solution is largely independent of their molecular size (5). Therefore, a sieving medium is required for the electrophoretic analysis of DNA fragments based on their size. Typically, two different principal types of separation matrix are used. The first type of matrix is of high viscosity polymer (e.g., polyacrylamide) with a well-defined crosslinked gel in regard to the structure and size of its pores. The second type of matrix is a noncrosslinked linear polymer network of materials such as, linear polyacrylamide, agarose, cellulose, dextran, poly(ethylene oxide), with lower viscosity than the former type and with a more dynamic pore structure. Although the first type of matrix is attached covalently to the capillary wall and may provide better separation for small (sequencing) fragments, the second matrix format has the advantage of being able to be replenished after each electrophoretic cycle. This typically extends the lifetime of a capillary, prevents contamination of the system, avoids sample carryover and allows the use of temperatures well above room temperature. Most matrices used in both systems are tolerant to the addition of DNA denaturants. Many different media useful for the separation of DNA have now become commercially available (6). In summary, the application of CE for DNA related research is attractive for numerous reasons: 1. The high degree of automation avoids cumbersome gel pouring and sample loading. 2. High mass sensitivity eliminates the need to label DNA with carcinogenic stains, or with radioactive DNA precursors .

هذا الكتاب من تأليف Keith R Mitchelson Jing Cheng و حقوق الكتاب محفوظة لصاحبها

أعلان