This unique, modular, multiweek laboratory course with cloning and sequencing lab kits is designed to guide students through a molecular biology workflow identical to that performed in a working science lab, with DNA cloning and sequencing of real-world samples. Students clone, sequence, and analyze a housekeeping gene in the GAPDH family, taken from a plant of their choice. The final sequencing and bioinformatics module allows each class to produce unique, novel data — the real thing!
Prepare your students for the real world of scientific research. Engage them with the opportunity to perform novel, relevant research that can actually contribute to scientific knowledge. In this unique modular lab series, students are guided through an innovative research workflow identical to those performed in genomics labs worldwide. Over a multiple-week lab course, students will combine traditional and cutting edge molecular biology techniques and bioinformatics to clone, sequence, and analyze a housekeeping gene from a plant of your choice ensuring each class produces unique and novel data. The real thing. As a research and diagnostics manufacturing company, Bio-Rad brings unique strengths to the education market, including credibility, high quality products (kits and equipment that work), novel inquiry-based curricula, cutting edge kit applications, competitive pricing, superior teacher professional development programs, long-term strategic partners and allies, and strong personal endorsements from customers across all levels of education.
The complete Cloning and Sequencing Explorer series is a 6–8 week series of laboratory activities in which students clone and analyze a portion of the GAPC gene. Activities range from DNA extraction to computer-based sequence analysis.
The first step in a gene cloning lab, the Nucleic Acid Extraction module allows students to extract all nucleic acids from plant cells using tissue grinding and lysis, followed by purification using column chromatography.
An advanced PCR lab that utilizes nested PCR, the GAPDH PCR module allows students to amplify a portion of the GAPC gene, a housekeeping gene in the glyceraldehyde-3-phosphate dehydrogenase (GAPDH) family, from a plant of their choice.
These DNA electrophoresis reagent packs are available in small, medium, and large sizes. Students can pour their own gels to visualize the products of PCR reactions, ligations, and restriction digests or perform dye electrophoresis.
The PCR Kleen Spin Purification module uses size exclusion chromatography to remove unincorporated primers, nucleotides, salts, and enzymes from PCR products.
This module allows students to directly ligate purified PCR products into the pJET1.2 plasmid vector and immediately transform freshly prepared competent bacteria with the ligation reaction.
The Microbial Culturing module contains the materials necessary to teach basic sterile technique, culture and transform ampicillin-resistant E. coli, and grow cultures for plasmid minipreps.
In this module, students can rapidly purify up to 20 µg of plasmid DNA from transformed bacteria using a three-step alkaline lysis procedure followed by mini column chromatography.
The sequencing and bioinformatics module is used to analyze a portion of the GAPC gene isolated from a plant. Students are guided through a sequence analysis that allows them to make a real contribution to science!
Customer Services & Ordering: +7 (495) 721 14 04
Sales: +7 (495) 721 14 04
Product Support: +7 (495) 721 14 04
Instrument Service: +7 (495) 721 14 04
Please reenter your email address in the correct format.
Please enter your email address.
Your subscription information already exists, we will send you an email with specific instructions to manage your existing subscription profile.
To receive the latest news, promotions, and more, sign up for Bio-Rad updates by entering your email address below. You can elect to receive only the types of Bio-Rad communications that are of interest to you..
Terms & Conditions
Copyright © 2017 Bio-Rad Laboratories, Inc. All rights reserved.