Accedi

California Institute of Technology - Caltech

6 ARTICLES PUBLISHED IN JoVE

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Biology

Extracting DNA from the Gut Microbes of the Termite (Zootermopsis Angusticollis) and Visualizing Gut Microbes
Eric Matson 1, Elizabeth Ottesen 1, Jared Leadbetter 1
1Department of Environmental Science and Engineering, California Institute of Technology - Caltech

This video illustrates the technique for extracting DNA from the species of microbes resident in the termite hindgut. The preparation of a wet mount slide, which is useful for visualizing the gut microbial community is also illustrated, and a tour through the species-rich gut environment is given.

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Biology

Investigating the Microbial Community in the Termite Hindgut - Interview
Jared Leadbetter 1
1Department of Environmental Science and Engineering, California Institute of Technology - Caltech

Jared Leadbetter explains why the termite-gut microbial community is an excellent system for studying the complex interactions between microbes. The symbiotic relationship existing between the host insect and lignocellulose-degrading gut microbes is explained, as well as the industrial uses of these microbes for degrading plant biomass and generating biofuels.

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Biology

Layers of Symbiosis - Visualizing the Termite Hindgut Microbial Community
Jared Leadbetter 1
1Department of Environmental Science and Engineering, California Institute of Technology - Caltech

Jared Leadbetter takes us for a nature walk through the diversity of life resident in the termite hindgut - a microenvironment containing 250 different species found nowhere else on Earth. Jared reveals that the symbiosis exhibited by this system is multi-layered and involves not only a relationship between the termite and its gut inhabitants, but also involves a complex web of symbiosis among the gut microbes themselves.

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Biology

Electron Cryotomography of Bacterial Cells
Songye Chen 1, Alasdair McDowall 1,2, Megan J. Dobro 1, Ariane Briegel 1,2, Mark Ladinsky 1,2, Jian Shi 2, Elitza I. Tocheva 1, Morgan Beeby 1,2, Martin Pilhofer 1,2, H. Jane Ding 1, Zhuo Li 1,2, Lu Gan 1, Dylan M. Morris 1, Grant J. Jensen 1,2
1Division of Biology, California Institute of Technology - Caltech, 2Howard Hughes Medical Institute, California Institute of Technology - Caltech

We illustrate here how to use electron cryotomography (ECT) to study the ultrastructure of bacterial cells in near-native states, to "macromolecular" (~4 nm) resolution.

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Environment

Using Caenorhabditis elegans for Studying Trans- and Multi-Generational Effects of Toxicants
Zhuo Li 1,2, Fangting Ai 3, Jing Zhang 4, Zhenyang Yu 1,2, Daqiang Yin 1,2
1College of Environmental Sciences and Engineering, Tongji University, 2Shanghai Institute of Pollution Control and Ecological Security, 3Jiaxing Tongji Institute of Environment, 4College of Ecological Technique and Engineering, Shanghai Institute of Technology

Trans- and multi-generational effects of persistent chemicals are essential in judging their long-term consequences in the environment and on the human health. We provide novel detailed methods for studying trans- and multi-generational effects using free-living nematode Caenorhabditis elegans.

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Cancer Research

A Human Peripheral Blood Mononuclear Cell (PBMC) Engrafted Humanized Xenograft Model for Translational Immuno-oncology (I-O) Research
Zhuo Li *1, Xiao Yang *1, Yilu Zhang 1, Xiaolong Yang 1, Xinxin Cui 1, Yanjuan Zhang 1, Wenfeng Gong 1, Huichen Bai 1, Ning Liu 1, Zhiyu Tang 1, Mingming Guo 1, Kang Li 1, Tong Zhang 1, Lai Wang 1, Xiaomin Song 1
1BeiGene (Beijing) Co., Ltd.

We describe a human peripheral blood mononuclear cell (PBMC) — based humanized xenograft mouse model for translational immuno-oncology research. This protocol could serve as a general guideline for establishing and characterizing similar models for I-O therapy assessment.

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