Working volume of 1.0ml
Round well with ‘Round bottom.
High uniformity from well to well
Raised well rims for reliable closing with heat sealing.
Easy and reliable stacking
Good centrifugation stability up to 6,000 × g for faster protocols and improved sample quality
Manufactured under DNase/ RNase free environment without slip agents, plasticizers or biocides – Materials which could have a negative effect on bioassays
Pure, virgin polypropylene guarantees good extractible performance, high resistance to chemicals, good mechanical stress and working with temperature extremes
Autoclavable (121 °C, 20 min)
Detail
Overview
Working volume of 1.0ml
Round well with ‘Round bottom.
High uniformity from well to well
Raised well rims for reliable closing with heat sealing.
Easy and reliable stacking
Good centrifugation stability up to 6,000 × g for faster protocols and improved sample quality
Manufactured under DNase/ RNase free environment without slip agents, plasticizers or biocides – Materials which could have a negative effect on bioassays
Pure, virgin polypropylene guarantees good extractible performance, high resistance to chemicals, good mechanical stress and working with temperature extremes
Autoclavable (121 °C, 20 min)
Other Products
T4 DNA Ligase
Product Info
Document
Product Info
OverView
T4 DNA Ligase is an ATP and Mg2+ dependent dsDNA ligase which catalyses the formation of a phosphodiester bond between 3’-hydroxyl and 5’-phosphate termini in duplex DNA, duplex RNA and some DNA/RNA hybrids. T4 DNA Ligase is active on both blunt-end and cohesive-end substrates. It is also completely inactivated by incubating at 70°C for 10 minutes.
This is a high-quality (commercial grade) version of the T4 DNA Ligase. T4 DNA Ligase is recombinantly produced in E. coli. ArcticZymes’ T4 DNA Ligase is extensively tested for contaminating DNase and RNase activities as well as residual host-cell gDNA.
Key Features
ATP and Mg2+ dependent dsDNA ligase
Easily heat-inactivated at 70°C for 10 minutes
Extensively tested for contaminating DNase and RNase activities as well as residual host-cell gDNA
Applications
Ligation of dsDNA
NGS library prep
Molecular cloning
Figures
Document
T4 DNA Ligase is an ATP and Mg2+ dependent dsDNA ligase which catalyses the formation of a phosphodiester bond between 3’-hydroxyl and 5’-phosphate termini in duplex DNA, duplex RNA and some DNA/RNA hybrids. T4 DNA Ligase is active on both blunt-end and cohesive-end substrates. It is also completely inactivated by incubating at 70°C for 10 minutes.
The GetClone™ PCR Cloning Vector II is a positive selection system for high efficiency cloning of blunt end DNA or amplicons. This cloning vector contains a lethal gene which can be disrupted by ligation of a blunt end DNA insert into the cloning site. Only colonies with inserted vectors are able to propagate, eliminating the additional needs of IPTG and X-Gal for blue/white screening. This cloning vector includes ampicillin and kanamycin resistance genes that can meet the needs of most users.
Features
Cloning efficiency greater than 90%
IPTG and X-Gal are not required
Accepts a wide range of insert/vector ratios 0.5:1 to 12:1
Accepts insert size from 6 bp to 11 kb
The phosphorylation of PCR fragments is not required
Accepts blunt end amplicon or DNA fragment (not for sticky ends)
Ampicillin and kanamycin selection markers
Storage
-20°C for 24 months
Document
The GetClone™ PCR Cloning Vector II is a positive selection system for high efficiency cloning of blunt end DNA or amplicons. This cloning vector contains a lethal gene which can be disrupted by ligation of a blunt end DNA insert into the cloning site. Only colonies with inserted vectors are able to propagate, eliminating the additional needs of IPTG and X-Gal for blue/white screening. This cloning vector includes ampicillin and kanamycin resistance genes that can meet the needs of most users.
TCO-PEG2-DBCO is a short PEG linker featuring a trans-cyclooctene and a DBCO group. DBCO is a click chemistry handle which easily reacts with azides, while the TCO function readily reacts with tetrazine-containing compounds.
Document
TCO-PEG2-DBCO is a short PEG linker featuring a trans-cyclooctene and a DBCO group. DBCO is a click chemistry handle which easily reacts with azides, while the TCO function readily reacts with tetrazine-containing compounds.
