Shanbao Cai scite author profile

Single-cell RNA sequencing (scRNA-seq) is a powerful approach for reconstructing cellular differentiation trajectories. However, inferring both the state and direction of differentiation is challenging. Here, we demonstrate a simple, yet robust, determinant of developmental potential—the number of expressed genes per cell—and leverage this measure of transcriptional diversity to develop a computational framework (CytoTRACE) for predicting differentiation states from scRNA-seq data. When applied to diverse tissue types and organisms, CytoTRACE outperformed previous methods and nearly 19,000 annotated gene sets for resolving 52 experimentally determined developmental trajectories. Additionally, it facilitated the identification of quiescent stem cells and revealed genes that contribute to breast tumorigenesis. This study thus establishes a key RNA-based feature of developmental potential and a platform for delineation of cellular hierarchies.

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Tumor-resident intracellular microbiota promotes metastatic colonization in breast cancer

Yao

Dong

et al. 2022

Cell

478

355

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Single-cell transcriptional diversity is a hallmark of developmental potential

Gulati

Sikandar

Wesche

et al. 2019

Preprint

137

245

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Single-cell RNA-sequencing (scRNA-seq) is a powerful approach for reconstructing cellular differentiation trajectories. However, inferring both the state and direction of differentiation without prior knowledge has remained challenging. Here we describe a simple yet robust determinant of developmental potential-the number of detectably expressed genes per celland leverage this measure of transcriptional diversity to develop a new framework for predicting ordered differentiation states from scRNA-seq data. When evaluated on ~150,000 single-cell transcriptomes spanning 53 lineages and five species, our approach, called CytoTRACE, outperformed previous methods and ~19,000 molecular signatures for resolving experimentallyconfirmed developmental trajectories. In addition, it enabled unbiased identification of tissueresident stem cells, including cells with long-term regenerative potential. When used to analyze human breast tumors, we discovered candidate genes associated with less-differentiated luminal progenitor cells and validated GULP1 as a novel gene involved in tumorigenesis. Our study establishes a key RNA-based correlate of developmental potential and provides a new platform for robust delineation of cellular hierarchies (https://cytotrace.stanford.edu).

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Kinesin-14 Family Proteins HSET/XCTK2 Control Spindle Length by Cross-Linking and Sliding Microtubules

Cai

Weaver

Ems-McClung

et al. 2009

MBoC

181

201

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Kinesin-14 family proteins are minus-end directed motors that cross-link microtubules and play key roles during spindle assembly. We showed previously that the Xenopus Kinesin-14 XCTK2 is regulated by Ran via the association of a bipartite NLS in the tail of XCTK2 with importin ␣/␤, which regulates its ability to cross-link microtubules during spindle formation. Here we show that mutation of the nuclear localization signal (

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Mechanisms of chromosome behaviour during mitosis

Walczak

Cai

Khodjakov

2010

Nat Rev Mol Cell Biol

203

182

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For over a century, scientists have strived to understand the mechanisms that govern the accurate segregation of chromosomes during mitosis. The most intriguing feature of this process, which is particularly prominent in higher eukaryotes, is the complex behaviour exhibited by the chromosomes. This behaviour is based on specific and highly regulated interactions between the chromosomes and spindle microtubules. Recent discoveries, enabled by high-resolution imaging combined with the various genetic, molecular, cell biological and chemical tools, support the idea that establishing and controlling the dynamic interaction between chromosomes and microtubules is a major factor in genomic fidelity.Mitosis is the shortest but most visually stunning phase of the cell cycle, particularly in metazoan cells, in which the mitotic apparatus and chromosomes can be followed directly by high-resolution microscopy. In these cells, the mitotic spindle -the macromolecular machine responsible for chromosome segregation -comprises over 800 proteins 1 . Structurally, the spindle is built from highly dynamic microtubules (BOX 1). Most of the less dynamic microtubule minus ends reside near the poles of the spindle, whereas the more dynamic plus ends extend towards the spindle equator and the cortex of the cell (FIG. 1). As a result, microtubules between the spindle poles are organized into an antiparallel array, and microtubules outside of the spindle body form two radial asters that converge on the spindle poles.

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Shanbao Cai

Single-cell transcriptional diversity is a hallmark of developmental potential

Tumor-resident intracellular microbiota promotes metastatic colonization in breast cancer

Single-cell transcriptional diversity is a hallmark of developmental potential

Kinesin-14 Family Proteins HSET/XCTK2 Control Spindle Length by Cross-Linking and Sliding Microtubules

Mechanisms of chromosome behaviour during mitosis

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