12.2 Origins can be mapped by autoradiography and electrophoresis Replication fork is the point at which strands of parental duplex dna are separated so that replication can proceed 消当
Replication fork is the point at which strands of parental duplex DNA are separated so that replication can proceed. 12.2 Origins can be mapped by autoradiography and electrophoresis
Nonreplicated Replication eye Nonreplicated 12.2 Origins can be dNA DNA mapped by Appearance autoradiography and electrophoresis Figure 12.1 Replicated DNA is seen as Molecular structure a replication eye fl d bv anked by nonreplicated DNA 消当
Figure 12.1 Replicated DNA is seen as a replication eye flanked by nonreplicated DNA. 12.2 Origins can be mapped by autoradiography and electrophoresis
UNIDIRECTIONAL REPUCATION 12.2 Origins can be mapped by autoradiography Replication fork and N electrophoresis 八AMmA Parental DNA\ Figure 12.2 Replicons BIDIRECTIONAL REPLICATION may be unidirectional or bidirectional depending on whether one or two replication Replication fork Replication fork forks are formed at the origin A 入 请莘大
Figure 12.2 Replicons may be unidirectional or bidirectional, depending on whether one or two replication forks are formed at the origin. 12.2 Origins can be mapped by autoradiography and electrophoresis
12.2 Origins can be mapped by autoradiography and electrophoresis Replicating e structure Appearance of e structure by electron miscopy Figure 12. 3 a replication eye forms a theta structure in circular dna 消当
Figure 12.3 A replication eye forms a theta structure in circular DNA. 12.2 Origins can be mapped by autoradiography and electrophoresis
12.2 Origins can be mapped by autoradiography and electrophoresis Figure 12. 4 The replication eye becomes larger as the replication forks proceed along the replicon. Note that the eye becomes larger than the nonreplicated segment. The two sides of the eye can be defined because they are both the same length. Photograph kindly provided by bernard Hirt 消当
Figure 12.4 The replication eye becomes larger as the replication forks proceed along the replicon. Note that the "eye" becomes larger than the nonreplicated segment. The two sides of the eye can be defined because they are both the same length. Photograph kindly provided by Bernard Hirt. 12.2 Origins can be mapped by autoradiography and electrophoresis