Multiomic single cell sequencing identifies stemlike nature of mixed phenotype acute leukemia.

Despite recent work linking mixed phenotype acute leukemia (MPAL) to certain genetic lesions, specific driver mutations remain undefined for a significant proportion of patients and no genetic subtype is predictive of clinical outcomes. Moreover, therapeutic strategy for MPAL remains unclear, and prognosis is overall poor. We performed multiomic single cell profiling of 14 newly diagnosed adult MPAL patients to characterize the inter- and intra-tumoral transcriptional, immunophenotypic, and genetic landscapes of MPAL.

Multiomic Single Cell Sequencing Identifies Stemlike Nature of Mixed Phenotype Acute Leukemia and Provides Novel Risk Stratification.

Mixed phenotype acute leukemia (MPAL) is a leukemia whose biologic drivers are poorly understood, therapeutic strategy remains unclear, and prognosis is poor. We performed multiomic single cell (SC) profiling of 14 newly diagnosed adult MPAL patients to characterize the immunophenotypic, genetic, and transcriptional landscapes of MPAL. We show that neither genetic profile nor transcriptome reliably correlate with specific MPAL immunophenotypes.

Microfluidics-free single-cell genomics with templated emulsification.

Current single-cell RNA-sequencing approaches have limitations that stem from the microfluidic devices or fluid handling steps required for sample processing. We develop a method that does not require specialized microfluidic devices, expertise or hardware. Our approach is based on particle-templated emulsification, which allows single-cell encapsulation and barcoding of cDNA in uniform droplet emulsions with only a vortexer.

Bacterial Succession on Sinking Particles in the Ocean's Interior.

Sinking particles formed in the photic zone and moving vertically through the water column are a main mechanism for nutrient transport to the deep ocean, and a key component of the biological carbon pump. The particles appear to be processed by a microbial community substantially different from the surrounding waters. Single cell genomics and metagenomics were employed to describe the succession of dominant bacterial groups during particle processing.

Microbial community structure and function on sinking particles in the North Pacific Subtropical Gyre.

Sinking particles mediate the transport of carbon and energy to the deep-sea, yet the specific microbes associated with sedimenting particles in the ocean's interior remain largely uncharacterized. In this study, we used particle interceptor traps (PITs) to assess the nature of particle-associated microbial communities collected at a variety of depths in the North Pacific Subtropical Gyre. Comparative metagenomics was used to assess differences in microbial taxa and functional gene repertoires in PITs containing a preservative (poisoned traps) compared to preservative-free traps where growth was allowed to continue in situ (live traps).

The genome of the intracellular bacterium of the coastal bivalve, Solemya velum: a blueprint for thriving in and out of symbiosis.

Background: Symbioses between chemoautotrophic bacteria and marine invertebrates are rare examples of living systems that are virtually independent of photosynthetic primary production. These associations have evolved multiple times in marine habitats, such as deep-sea hydrothermal vents and reducing sediments, characterized by steep gradients of oxygen and reduced chemicals. Due to difficulties associated with maintaining these symbioses in the laboratory and culturing the symbiotic bacteria, studies of chemosynthetic symbioses rely heavily on culture independent methods.

Evidence for horizontal transmission from multilocus phylogeny of deep-sea mussel (Mytilidae) symbionts.

Many invertebrates at deep-sea hydrothermal vents depend upon bacterial symbionts for nutrition, and thus the mechanism of symbiont transmission, vertical (via the egg or sperm) or horizontal (from environment or contemporary hosts) is critically important. Under a strict maternal transmission model, symbiont and host mitochondrial genomes pass through the same individuals leading to congruent host-symbiont phylogenies. In contrast, horizontally transmitted symbionts are environmentally acquired, leading to incongruent host-symbiont phylogenies.

Complete genome sequence of Candidatus Ruthia magnifica.

The hydrothermal vent clam Calyptogena magnifica (Bivalvia: Mollusca) is a member of the Vesicomyidae. Species within this family form symbioses with chemosynthetic Gammaproteobacteria. They exist in environments such as hydrothermal vents and cold seeps and have a rudimentary gut and feeding groove, indicating a large dependence on their endosymbionts for nutrition.

Functional characterization of KIN-32, the Caenorhabditis elegans homolog of focal adhesion kinase.

We have identified the single Caenorhabditis elegans focal adhesion kinase (FAK) homolog KIN-32, which has the signature FAK structure including an N-terminal Four.1-Ezrin-Radixin-Moesin (FERM) domain followed by a tyrosine kinase domain and a C-terminal domain with weak homology to the focal adhesion targeting domain. The functional requirements for KIN-32 were examined using RNA interference depletion experiments and analysis of a deletion allele, kin-32(ok166), in which a large segment of the FERM domain is missing.