Abstract: The present disclosure provides improved methods for bead beating and a bead beating system useful therefor. The present disclosure further provides methods of using the bead beating system to extract nucleic acids from cells containing the nucleic acids.
Abstract: The disclosure provides three-dimensional crosslinked polymer networks comprising one or more channels extending from the surface and/or near the surface of the network into the interior of the network, arrays comprising the networks, processes for making the networks, and uses of the networks and arrays.
Abstract: Methods are provided for the analysis of microarray images. The methods described automate the image-based quality control of a microarray and the subsequent quantitative assessment of the analysis that the microarray image represents. The methods comprise generating a reference array using raw image data based on which the microarray can then be located. Once the array is located, the quality of the individual print spots can be analyzed.
Abstract: Methods of identifying homologous genomic sequences that may be present in a sample utilizing virtual probes, arrays for distinguishing homologous genomic sequences, systems for distinguishing homologous genomic sequences, and probe molecules useful in the methods, arrays, and systems of the disclosure.
Abstract: The present disclosure provides improved methods for bead beating and a bead beating system useful therefor. The bead beating system comprises a sample tube, beads, and a dry blocking agent, and methods for using the bead beating system to extract nucleic acids from cells containing the nucleic acids.
Abstract: The present disclosure provides improved methods for bead beating and a bead beating system useful therefor. The present disclosure further provides methods of using the bead beating system to extract nucleic acids from cells containing the nucleic acids.
Abstract: The present disclosure provides improved methods for bead beating and a bead beating system useful therefor. The present disclosure further provides methods of using the bead beating system to extract nucleic acids from cells containing the nucleic acids.
Abstract: The disclosure provides three-dimensional crosslinked polymer networks comprising one or more channels extending from the surface and/or near the surface of the network into the interior of the network, arrays comprising the networks, processes for making the networks, and uses of the networks and arrays.
Abstract: Methods of identifying homologous genomic sequences that may be present in a sample utilizing combinations of probes binding differently to genomic sequences from different organisms, arrays for distinguishing homologous genomic sequences, systems for distinguishing homologous genomic sequences, and bacteria binding probe molecules useful in the methods, arrays, and systems.
Abstract: The disclosure provides three-dimensional crosslinked polymer networks comprising one or more channels extending from the surface and/or near the surface of the network into the interior of the network, arrays comprising the networks, processes for making the networks, and uses of the networks and arrays.
Abstract: The present disclosure provides improved methods for bead beating and a bead beating system useful therefor. The present disclosure further provides methods of using the bead beating system to extract nucleic acids from cells containing the nucleic acids.
Abstract: The disclosure provides three-dimensional cross-linked polymer networks transport channels, arrays comprising the networks, processes for making the networks, and uses of the networks and arrays.
Abstract: The present disclosure provides improved methods for bead beating and a bead beating system useful therefor. The bead beating system comprises a sample tube, beads, and a dry blocking agent, and methods for using the bead beating system to extract nucleic acids from cells containing the nucleic acids.
Abstract: Methods of identifying homologous genomic sequences that may be present in a sample utilizing virtual probes, arrays for distinguishing homologous genomic sequences, systems for distinguishing homologous genomic sequences, and probe molecules useful in the methods, arrays, and systems of the disclosure.
Abstract: The disclosure provides an asymmetric PCR amplification method for preparation of single-stranded product and primers and kits useful therefor.
Type:
Application
Filed:
November 21, 2018
Publication date:
October 1, 2020
Applicant:
SAFEGUARD BIOSYSTEMS HOLDINGS LTD.
Inventors:
Nicolaas SMIT, Sonja BEDNAR, Holger KLAPPROTH, Kevin BOYNTON
Abstract: The disclosure provides three-dimensional crosslinked polymer networks comprising one or more channels extending from the surface and/or near the surface of the network into the interior of the network, arrays comprising the networks, processes for making the networks, and uses of the networks and arrays.
Abstract: The disclosure provides an asymmetric PCR amplification method for preparation of single-stranded product and primers and kits useful therefor.
Type:
Grant
Filed:
November 22, 2017
Date of Patent:
December 24, 2019
Assignee:
Safeguard Biosystems Holdings Ltd.
Inventors:
Nicolaas Smit, Sonja Bednar, Holger Klapproth, Kevin Boynton
Abstract: The disclosure provides three-dimensional cross-linked polymer networks transport channels, arrays comprising the networks, processes for making the networks, and uses of the networks and arrays.
Abstract: The disclosure provides an asymmetric PCR amplification method for preparation of single-stranded product and primers and kits useful therefor.
Type:
Application
Filed:
November 22, 2017
Publication date:
May 23, 2019
Applicant:
SAFEGUARD BIOSYSTEMS HOLDINGS LTD.
Inventors:
Nicolaas SMIT, Sonja BEDNAR, Holger KLAPPROTH, Kevin BOYNTON
Abstract: The disclosure provides three-dimensional cross-linked polymer networks transport channels, arrays comprising the networks, processes for making the networks, and uses of the networks and arrays.