http://facstaff.buffalostate.edu/bagleyka/470problems/ps8.htm WebKey points: DNA replication is semiconservative. Each strand in the double helix acts as a template for synthesis of a new, complementary strand. New DNA is made by enzymes called DNA polymerases, which require a template and a primer (starter) and synthesize … The replication fork is the branched (forked) DNA at either end of the replication …
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WebLOCATION. Blythewood, SC. POSTED. Today. We're Charter Next Generation (CNG), North America’s leading independent producer of high-performance, specialty film and flexible … WebThe diagram below represents a replication bubble (or fork). The arrows indicate the direction the replication fork is moving, showing how the double stranded DNA is unwinding, А A 5 3 3 B B* 5 2 Replication of the region in the top DNA strand labeled "A" would be a … top health food brands
Solved In this diagram of the process of DNA replication at - Chegg
WebOpen the replication forks up to the blue highlighted base on each end. Include the correct complementary leading and lagging strands on both forks up to the blue highlighted base on both sides. Include two Okazaki fragments on both forks made up of 5 bases. Your illustration must be neat, thorough, labeled, and easy to follow. WebFor one of the two replication forks, draw and label all of the proteins required the text describes as being important for DNA synthesis, and label the leading and lagging strands. Draw a replication bubble. Be sure to label the directionality of all strands of DNA. WebEach bidirectional origin generates two replication forks which move 2,000 bp per min. Thus in 5 hr (which is 300 min), each fork moves 2,000 bp min-1 x 300 min = 600,000 bp. For the two forks per origin, this is 1.2 x 106 bp. In order to replicate the haploid genome, one needs 3 x 109 bp/ 1.2 x 106 bp ori-1, or 2,500 origins. Answer 6.2. pinccollege sharepoint