Ribo-off® rRNA Depletion Kit (Plant)
The Ribo-off rRNA depletion kit (Plant) is designed to deplete rRNA (including 5S, 18S and 25S rRNA) from total RNA of plant roots, seeds and leaves and to obtain mRNA and other non-coding RNA.
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The Ribo-off rRNA depletion kit (Plant) is designed to deplete rRNA (including 5S, 18S and 25S rRNA) from total RNA of plant roots, seeds and leaves and to obtain mRNA and other non-coding RNA.
The Ribo-off rRNA Depletion Kit (Bacteria) is designed to deplete rRNA (including 16S, 23S rRNA) from total RNA of gram-positive and gram-negative bacteria, while leaving mRNA and other non-coding RNA.
The Ribo-off rRNA Depletion Kit (H/M/R) is designed to deplete rRNA (including cytoplasmic 28S, 18S, 5S rRNA, and mitochodrial 12S, 5.8S rRNA) from human, mouse, and rat total RNA preparations, while leaving mRNA and other non-coding RNA.
The Library Preparation VAHTS TM mRNA Capture Beads is 1 μm paramagnetic beads coupling of Oligo d (T) which is applicable to isolate intact poly (A) + RNA from previously isolated total RNA. Magnetic separation technology permits elution of intact mRNA in small volumes eliminating the need for precipitating the poly (A) + transcripts in the eluent. The entire operation can be completed in less than one hour.
VAHTS Multiplex Oligos Set 2 for Illumina ® is specially designed for RNA library preparation for Illumina ® platforms.
VAHTS Multiplex Oligos Set 1 for Illumina ® is specially designed for RNA library preparation for Illumina ® platforms. This kit contains VAHTA RNA Adapter-S for llumina ® , 8 kinds of VAHTS i5 PCR Primers, and 12 kinds of VAHTS i7 PCR Primers.
VAHTS Multiplex Oligos set 5 for Illumina® is specially designed for DNA library preparation for Illumina high-throughput sequencing platform.
VAHTS Multiplex Oligos set 4 for Illumina® is specially designed for DNA library preparation for Illumina high-throughput sequencing platform.
Phi29 MAX DNA Polymerase is a DNA polymerase cloned from Bacillus subtilis phage phi29. Phi29 MAX DNA Polymerase exhibits a
strong strand-displacement function