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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.
A cosmid is a type of hybrid plasmid that contains a Lambda phage cos sequence. [1] Often used as cloning vectors in genetic engineering, cosmids can be used to build genomic libraries. They were first described by Collins and Hohn in 1978. [2] Cosmids can contain 37 to 52 (normally 45) kb of DNA, limits based on the normal bacteriophage ...
[4] cII acts as a transcriptional activator of three promoters on the phage genome: pI, pRE, and pAQ. [3] cII is an unstable protein with a half-life as short as 1.5 mins at 37˚C, [5] enabling rapid fluctuations in its concentration. First isolated in 1982, [6] cII's function in lambda's regulatory network has been extensively studied.
The earliest identified members of the serine recombinase family were known as resolvases or DNA invertases, while the founding member of the tyrosine recombinases, lambda phage integrase (using attP/B recognition sites), differs from the now well-known enzymes such as Cre (from the P1 phage) and FLP (from the yeast Saccharomyces cerevisiae).
HU and integration host factor function as auxiliary proteins in cleavage of phage lambda cohesive ends by terminase is an academic journal written by the Department of Molecular Genetics. In their article, they created isogenic strains of E.coli that were lacking HU or integration host factors to test whether bacteriophage would grow under ...
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.
Bacteriophage lambda encodes two repressors: the Cro repressor that acts to turn off early gene transcription during the lytic cycle, and the lambda or cI repressor required to maintain lysogenic growth. Together the Cro and cI repressors form a helix-turn-helix (HTH) superfamily. The lambda Cro repressor binds to DNA as a highly flexible dimer.
Lambda holin S (Lysis protein S of phage lambda, holin S105; TC# 1.E.2.1.1) is the prototype for class I holins. It has 3 TMSs with the N-terminus in the periplasm and the C-terminus in the cytoplasm. Its 107 codon sequence encodes two proteins with opposing functions, the holin, S105, and the holin inhibitor, S107.