Restriction endonuclease sites are often puposely located in bacterial genomes.It naturally found in bacteria used to recognize and cleave viral DNA.
Question 21 Restriction endonuclease sites are often purposely located in 0 vectors bacterial genomes 0 eukaryotic...
Question 19 Restriction enzymes are naturally produced by and isolated from O bacteria. O bacteriophages. O human cells. O plant cells. non-human mammals. Question 20 Which does not add a specific gene to a cell? O protoplast fusion O gene gun O microinjection O electroporation O transformation Question 21 Restriction endonuclease sites are often purposely located in vectors bacterial genomes 0 eukaryotic genomes therapeutic applications the polymerase chain reaction
Foreign DNA is acquired and expressed by a cell through taking in naked DNA. This is a horizontal transfer and transformation b vertical transfer and transformation c horizontal transfer and transduction d expressive transfer and translocation e horizontal transfer and transfection Replica plating is used a to identify an auxotrophic mutant b to identify heterotrophic mutants c for cell viability counts d to preserve a partciular culture e to show selective growth on media H how is an RFLP different...
please answer question numbe 2.
Restriction endonucleases are bacterial enzymes that recognize, bind, and cut DNA strands at specific recognition sequences. They evolved to protect bacteria from bacterial viruses and are very useful for a wide variety of molecular biology applications. Some of the more common ones include EcoRI which recognizes the 6 bp sequence 5 'GAATTC 3' and cleaves the phosphodiester backbone after the G. Hind III_(AAGCTT), BamHI (G|GATCC), Pstl (CTGCAG), Not! (GC|GGCCGC), Ndel (CATATG) Kpnl (GGTAC^C), Bgl II...
A cell's genome is its blueprint for life. However, what is the bare minimum number of genes needed to sustain a free-living cell? This is a question that microbiologists at the J. Craig Venter Institute (JCVI) have attempted to answer ever since they sequenced the genomes of several Mycoplasma species in the 1990s. Because Mycoplasma species are parasitic bacteria, their genomes are already reduced in size and hence provide an excellent foundation for creating a "minimal cell." However, little did...