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Lambda phage is a non-contractile tailed phage, meaning during an infection event it cannot 'force' its DNA through a bacterial cell membrane. It must instead use an existing pathway to invade the host cell, having evolved the tip of its tail to interact with a specific pore to allow entry of its DNA to the hosts.
Temperate phages (such as lambda phage) can reproduce using both the lytic and the lysogenic cycle. [4] How a phage decides which cycle to enter depends on a variety of factors. [5] For instance, if there are several other infecting phages (or if there is a high multiplicity), it is likely that the phage will use the lysogenic cycle.
The dormant form of the lambda genome was called the ‘prophage’. [7] Study of phage lambda over the next 50 years provided valuable insights into virus life cycles, [18] the regulation and expression of genetic material, [19] and the mechanism of integration and excision of genetic material into chromosomal locations. [7]
cII is the central “switchman” in the lambda phage bistable genetic switch, allowing environmental and cellular conditions to factor into the decision to lysogenize or to lyse its host. [ 4 ] cII acts as a transcriptional activator of three promoters on the phage genome : pI, pRE, and pAQ.
The article also discusses the mating of E. Coli and salmonella cells using the lambda phage and the P1 pathway to deliver the genetic information from the E. Coli to the salmonella cells. During this process the E. Coli k-12 genes are transduced into the salmonella and later expressed using IHF (integrated host factors), during the lytic phase.
Esther Miriam Zimmer Lederberg (December 18, 1922 – November 11, 2006) was an American microbiologist and a pioneer of bacterial genetics.She discovered the bacterial virus lambda phage and the bacterial fertility factor F, devised the first implementation of replica plating, and furthered the understanding of the transfer of genes between bacteria by specialized transduction.
Structure of phage ΦX174 capsid Schematic drawing of a Sinsheimervirus (aka Phix174microvirus) virion. The phi X 174 (or ΦX174) bacteriophage is a single-stranded DNA virus that infects Escherichia coli.
Moreover, genetic engineering gives engineers the ability to directly manipulate the genetic materials of organisms using recombinant DNA techniques. The first recombinant DNA molecule was created by Paul Berg in 1972 when he combined DNA from the monkey virus SV40 with that of the lambda phage. [12]