Booth #308

San Diego, CA

Summary of Industry Workshops

Advances in Visualizing Genome Organization – from Haplotypes to Chromosomal Barcoding

James A. BirchlerUniversity of Missouri
Whole chromosome paints have previously been developed for each chromosome of maize that rely on thousands of unique oligonucleotide probes along the length of each chromosome. This set is genotype independent and will label the respective chromosome across all tested maize lines. With the availability of genomic sequences for both B73 and Mo17 inbred lines, the ability to generate probe collections specific to those genotypes is available. Toward this end, Presence/Absence Variation (PAV) and SNPs were used for predicted oligos from one inbred sequence that were absent in the other and vice versa for chromosome 10 from the respective inbreds. The developed oligopaints were effective at distinguishing the two homologues of 10 in a B73/Mo17 hybrid. These haplotype specific probe sets were used to visualize recombination events from progeny of a B73/Mo17 hybrid and in Recombinant Inbred Line populations that fix recombination events from the two parental lines. Ongoing studies are examining the behavior of homologues in meiosis.

Kai Wang – Fujian Agriculture and Forestry University

Sugarcane (Saccharum spp., Poaceae) is a leading crop for sugar production providing 80% of the worlds sugar. However, the genetic and genomic complexities of this crop such as its high polyploidy level and highly variable chromosome numbers have significantly hindered the studies in deciphering the genomic structure and evolution of sugarcane. Here, oligo-FISH technology was optimized and a suitable system for sugarcane was established. The creation of oligo-FISH remarkably improves our ability to conduct cytological research on sugarcane, and bring us deep insights into the genomic structure and evolution of sugarcane.

Takayoshi Ishii – Arid Land Research Center, Tottori university

Andreas Houben – Leibniz Institute of Plant Genetics and Crop Plant Research (IPK)

We developed a tool to visualize defined genomic sequences in fixed nuclei and chromosomes based on a two-part guide RNA with the recombinant Cas9 endonucleasecomplex. In contrast to classical in situhybridization, RGEN-ISL (RNA-guided endonuclease – in situ labelling) does not require DNA denaturation and therefore permits a better structural chromatin preservation. The application of differentially labelled tracrRNAs allows the multiplexing of RGEN-ISL. We established a combination of RGEN-ISL, immuno-staining and EdU labelling to visualize in situ specific repeats, histone marks and DNA replication sites, respectively. The broad range of adaptability of RGEN-ISL to different temperatures and combinations of methods has the potential to advance the field of chromosome biology.

Complete Wheat Exome Analysis – From DNA to Variant Calling

Burkhard Steuernagel – The Sainsbury Laboratory and John Innes Centre

Disease resistance in plants is often conferred by members of a gene family that encode for intracellular receptors. These receptors have a nucleotide binding domain and leucine rich repeats (NLR). Resistance-gene Enrichment Sequencing (RenSeq) targets NLR genes and enables several cost-effective methods to identify such genes. We have designed RenSeq bait libraries for wheat and used them in combination with two complementary approaches. MutRenSeq deploys mutational genomics to target specific resistance genes. AgRenSeq is used for association genetics in a natural diversity panel. Both techniques have been used to identify several novel genes.

Shawn Quinn – Curio Genomics

As part of a collaboration with Daicel Arbor Biosciences the extensible Curio Genomics platform serves as the foundation that enables interpretive and real time analysis of NGS data generated from libraries that are enriched to focus on the high-confidence exon-annotated genome in hexaploid wheat.

In this talk we will demonstrate specific examples of how the platform scales to allow research partners to efficiently ask compound and complex bioinformatic questions of the massive genome of Chinese Spring Wheat samples. We’ll also show how the platform’s unique approach to the storage and processing of wheat genome data empowers researchers to conveniently collaborate with others, perform analyses, compare between samples, change analytical settings, apply different filters, and visualize results – all in real time.

Ute Baumann – The University of Adelaide

Posters Presentations from Daicel Arbor Biosciences & Collaborators

Multi-Cultivar Wheat Tetraploid and Hexaploid Exome Capture with a Single Enrichment Kit

Cannabis sativa Genotyping and Exon Sequencing Using a New Jamaican Lion-Derived Hybridization Capture Panel

SMRT-RenSeq for NLR Resistance Gene Characterization in Arachis, Glycine and Musa Species

Meiotic Crossovers Characterized by Haplotype- Specific Chromosome Painting in Maize

myTags® Synthetic FISH Probes Design Schemes for Plant and Animal Molecular Cytogenetics – Recombination, Translocation, Ploidy and Karyotyping Applications

Palaeochip: A Capture Enrichment Approach to Ancient Environmental DNA

Related Products & Services

myTagsmyTags Custom Fish Probes

myReadsmyReads NGS Services

myBaits myBaits Expert Wheat Exome Panel

myBaitsmyBaits Custom Panels

New myTXTL bulk packaging align with volumes required for high-throughput organizations in synthetic biology.

Ann Arbor, MI

Daicel Arbor Biosciences, a division of Chiral Technologies, Inc. and leader in developing molecular biology research tools, today announced the launch of myTXTL® bulk pack sizes while attending the SynBioBeta 2019 conference in San Francisco, CA, as an addition to their growing catalog of cell-free expression kits for synthetic biology applications. This new offering aligns with the growing demand for larger volume requirements by organizations utilizing high-throughput screening in protein and enzyme engineering. The pack sizes and aliquots of the master mixes are ideal for cell-free expression on automated liquid handling systems.

Cell-free expression systems are currently available from Daicel Arbor Biosciences as a Sigma 70 or a linear DNA expression master mix. Both systems use E. coli as a base lysate combined with amino acids, essential elements, and a regenerative energy buffer in a complete, simple to use master mix which only requires the addition of template DNA. The Sigma 70 system relies on circular or plasmid DNA while the linear system can transcribe circularized or linear DNA as a template prior to translation. Either system will be available to researchers in bulk format to pair with their high-throughput DNA template generation systems.

“The uses of cell-free expression systems continue to expand in synthetic biology and we want to stay aligned with our client base as they scale their discovery pipelines”, stated Evelyn Eggenstein Ph.D., Synthetic Biology Division Manager at Daicel Arbor Biosciences. “The rapid design- build-test cycle provided by myTXTL systems has accelerated discovery, especially when paired with linear DNA templates.”

The Sigma 70 and Linear DNA Expression Master Mixes are available for immediate order in 5, 10, and 25 mL sizes with a lead time of 3 – 4 weeks for shipment. Daicel Arbor Biosciences is also working with organizations on custom pack sizes greater than 25 mL and aliquot sizes to match end-user requirements. Introductory pricing will be available on bulk pack sizes at the SynBioBeta conference and through the end of the year.


About Daicel Arbor Biosciences

Daicel Arbor Biosciences, a division of Chiral Technologies, Inc. and a subsidiary of Daicel Corporation, is a development and manufacturing company founded by scientists to serve our peers in molecular biology applications.We are a passionate organization of scientists determined to deliver cost-effective, user-friendly products to researchers of genetics and synthetic biology. The team at Daicel Arbor Biosciences prides themselves on providing exceptional customer service and timely technical support to new or advanced users on our array of products. We routinely collaborate with our customers and research partners to develop innovative solutions to address their unique applications.

About Chiral Technologies

Chiral Technologies, a subsidiary of DAICEL CORPORATION, serves pharmaceutical and other life science industries and offers the largest portfolio of chiral stationary phases (CSPs) and analytical and preparative chiral columns for the separation of racemic mixtures into singleenantiomers. The company also provides analytical method development and custom separation services. Learn more at

Contact for Daicel Arbor Biosciences:

Michele Gentile