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Catalog, Transfection Reagents: ExGen 500 in vitro Transfection ... ExGen 500 is suitable for the transfection of a wide number of cell types (see the list) with high efficiency and minimal toxicity. ... 2.
Restriction Enzymes: Cfr42I (SacII) Certain sites in lambda and phiX174 DNAs are difficult to cleave with Cfr42I, the same as with its prototype SacII. Cfr42I activity is affected by high salt ... 3.
MSDS for 10x Buffer Ecl136II, SacI, #B26-EU File Format: PDF/Adobe Acrobat - View as HTML Trade name: 10x Buffer Ecl136II, SacI. (Contd. of page 1) ... CO2, powder or water spray. Fight larger fires with water spray or alcohol resistant foam. ... 4.
MSDS for 10x Buffer Ecl136II, SacI, #B26-USA File Format: PDF/Adobe Acrobat - View as HTML Trade name: 10x Buffer Ecl136II, SacI. (Contd. of page 1) ... CO2, extinguishing powder or water spray. Fight larger fires with water spray or alcohol ... 5.
DNA Electrophoresis: GeneRuler™ and O'GeneRuler™ 1 kb, 1 kb Plus ... O'GeneRuler™ 1 kb Plus DNA Ladder, ready-to-use. Designed for sizing and approximate quantification of PCR products or other wide range double-stranded DNA ... 6.
Support, restriction enzymes: Fermentas Guide for Successful ... Check the thermostability of the restriction enzyme in the product description, Certificate of Analysis or Table "Reaction Conditions for Restriction ... 7.
Vector description & restriction map: pACYC177 The 3941 bp plasmid pACYC177 is compatible with pMB1- or ColE1-related plasmids and can therefore be used with a pMB1- or ColE1-derivative within the same ... 8.
Vector description & restriction map: pACYC184 The map shows enzymes that cut pACYC184 DNA once. Enzymes produced by Fermentas are shown in blue. The coordinates refer to the position of first nucleotide ... 9.
Vector description & restriction map: pACYC184 Rose, R.E., The nucleotide sequence of pACYC184, Nucleic Acids Res., 16, 355, 1988. Enzymes which cut pACYC184 DNA once: AasI 3696, BamHI 1870, BclI 3542, ... 10.
Nucleases: RNases A/T1 Mix The RNase A/T1 Mix combines the RNA degradation activity of both RNase A and RNase T1. The RNase A specifically hydrolyzes RNA at C and U residues; RNase T1 ... |
