myTags Immortal Custom FISH-probe Libraries• Generate high yields of labeled probes from low input amounts
• Produce labeled probes as needed, when needed
• Easily try new dyes and labels
• Produce endless supply of probes from the amplifiable immortal library
myTags® immortal probe libraries
are amplifiable libraries that can be
utilized to generate labeled myTags
Easily generate higher yields of labeled probes compared to other labeling methods while gaining the flexibility to select fluorophores or haptens of choice. The myTags® labeling method and technical support provided by Arbor Biosciences delivers the confidence required to label your probes in-house. The immortal libraries are amplifiable, meaning there is an endless supply of probe library which can produce labeled probes from amplified pools of the original stock library.
The labeling process involves two simple transcription processes to transcribe large amounts of single-stranded DNA probes from small amounts of input DNA. Immortal probe libraries are a great solution to minimizing long-term costs associated with large-scale projects. Additionally, we can provide oligo libraries with unique primer sets for labeling Oligopaints probes.
If pre-labeled, ready-to-use probes are preferred, please review the myTags® labeled probes option for your application. Arbor Biosciences provides complimentary probe design for either immortal or labeled libraries in order to deliver the best performance possible.
• Fluorescent in situ Hybridization (FISH)
>> Multi-color FISH, etc
• Flow cytometry
• Fluorescent reporters
• Microarray signal enhancement
Beck, S. et al. (2018) Implications of CpG islands on chromosomal architectures and modes of global gene regulation. Nucleic Acids Research:46: 4382–4391.
Braz, G.T. et al. (2018) Comparative Oligo-FISH Mapping: An Efficient and Powerful Methodology To Reveal Karyotypic and Chromosomal Evolution. Genetics 208: 513-523.
Hou, L. et al. (2018) Chromosome painting and its applications in cultivated and wild rice. BMC Plant Biology 18:110.
Li et al. (2016) Divergence between C. melo and African Cucumis Species Identified by Chromosome Painting and rDNA Distribution Pattern. Cytogenetic and Genome Research 150:150-155.
Li et al. (2016) Cytogenetic relationships among Citrullus species in comparison with some genera of the tribe Benincaseae (Cucurbitaceae) as inferred from rDNA distribution patterns. BMC Evolutionary Biology 16:85.
Han et al. (2015) Chromosome-specific painting in Cucumis species used bulked oligonucleotides. Genetics 200: 771-779.
Beliveau et al. (2012) Versatile design and synthesis platform for visualizing genomes with Oligopaint FISH probes. Proc Natl Acad Sci U S A 109: 21301-21306.
|myTags Immortal probes for a 180 Kb maximum target area (10 probes per kb), >200 ng||400201-ARB||1 library||588 €||DETAILS||Add to Cart|
|myTags Immortal probes for a 400 Kb maximum target area (10 probes per kb), >200 ng||400401-ARB||1 library||799 €||DETAILS||Add to Cart|
|myTags Immortal probes for a 2.0 Mb maximum target area (10 probes per kb), >200 ng||402001-ARB||1 library||1854 €||DETAILS||Add to Cart|
|myTags Immortal probes for a 4.0 Mb maximum target area (10 probes per kb), >200 ng||404001-ARB||1 library||3188 €||DETAILS||Add to Cart|
|myTags Immortal probes for a 6.0 Mb maximum target area (10 probes per kb), >200 ng||406001-ARB||1 library||3801 €||DETAILS||Add to Cart|
|myTags Immortal probes for a 8.0 Mb maximum target area (10 probes per kb), >200 ng||408001-ARB||1 library||5047 €||DETAILS||Add to Cart|