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Liverpool School of Tropical Medicine

8 ARTICLES PUBLISHED IN JoVE

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Immunology and Infection

A Simple Protocol for Platelet-mediated Clumping of Plasmodium falciparum-infected Erythrocytes in a Resource Poor Setting
Dumizulu L. Tembo 1, Jacqui Montgomery 1, Alister G. Craig 2, Samuel C. Wassmer 3
1Malawi-Liverpool-Wellcome Trust Clinical Research Programme, 2Liverpool School of Tropical Medicine, 3Department of Microbiology, Division of Medical Parasitology, New York University School of Medicine

This method investigates the platelet-mediated clumping phenotype of Plasmodium falciparum-infected erythrocytes (pRBC) in clinical isolates. This is performed by isolating and co-incubating platelet-rich plasma and a suspension of pRBC.

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Medicine

Bronchoalveolar Lavage (BAL) for Research; Obtaining Adequate Sample Yield
Andrea M. Collins 1,2, Jamie Rylance 3, Daniel G. Wootton 4, Angela D. Wright 3,5, Adam K. A. Wright 1,3, Duncan G. Fullerton 3,6, Stephen B. Gordon 3
1Biomedical Research Centre in Microbial Diseases, National Institute for Health Research, 2Respiratory Infection Group, Royal Liverpool and Broadgreen University Hospital Trust, 3Respiratory Infection Group, Liverpool School of Tropical Medicine, 4Institute of Infection and Global Health, University of Liverpool, 5Comprehensive Local Research Network, Royal Liverpool and Broadgreen University Hospital Trust, 6Department of Respiratory Research, University Hospital Aintree

We describe a research technique for fiberoptic bronchoscopy and bronchoalveolar lavage using low pressure suction. The technique is used to harvest immune cells from the lung bronchoalveolar surfaces. Local anesthetic and mild conscious sedation (midazolam) is used. Subjects tolerate the procedure well and experience minimal side effects.

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Medicine

Experimental Human Pneumococcal Carriage
Jenna F. Gritzfeld 1, Angie D. Wright 1,2,3, Andrea M. Collins 1,2,4, Shaun H. Pennington 1, Adam K.A. Wright 5, Aras Kadioglu 6, Daniela M. Ferreira 1, Stephen B. Gordon 1
1Respiratory Infection Group, Liverpool School of Tropical Medicine, 2Royal Liverpool and Broadgreen, University Hospital Trust, 3Comprehensive Local Research Network, 4NIHR Biomedical Research Centre in Microbial Diseases, Royal Liverpool and Broadgreen University Hospitals NHS Trust, 5Institute of Lung Health, Respiratory Biomedical Unit, University Hospitals of Leicester NHS Trust & University of Leicester, 6Department of Clinical Infection Microbiology & Immunology, Institute of Infection & Global Health, University of Liverpool

Experimental human pneumococcal carriage offers a natural model of carriage and a potential model for use in vaccine development. This technique is valuable yet complex and involves clinical risk by introducing a pathogen into a human. We have developed a detailed protocol.

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Biology

The Ingestion of Fluorescent, Magnetic Nanoparticles for Determining Fluid-uptake Abilities in Insects
Matthew S. Lehnert 1, Kristen E. Reiter 1, Andrew Bennett 1, Patrick D. Gerard 2, Qi-Huo Wei 3, Miranda Byler 1, Huan Yan 3, Wah-Keat Lee 4
1Department of Biological Sciences, Kent State University at Stark, 2Department of Mathematical Sciences, Clemson University, 3Liquid Crystal Institute, Kent State University, 4Brookhaven National Laboratory

Fluid-feeding insects have the ability to acquire minute quantities of liquids from porous surfaces. This protocol describes a method to directly determine the ability for insects to ingest liquids from porous surfaces using feeding solutions with fluorescent, magnetic nanoparticles.

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Biology

IR-TEx: An Open Source Data Integration Tool for Big Data Transcriptomics Designed for the Malaria Vector Anopheles gambiae
Victoria A. Ingham 1, Andrew Bennett 2, Duo Peng 3, Simon C. Wagstaff 2, Hilary Ranson 1
1Vector Biology, Liverpool School of Tropical Medicine, 2Research Computing Unit, Liverpool School of Tropical Medicine, 3Department of Immunology and Infectious Diseases, Harvard T.H. Chan School of Public Health

IR-TEx explores insecticide resistance-related transcriptional profiles in the species Anopheles gambiae. Provided here are full instructions for using the application, modifications for exploring multiple transcriptomic datasets, and using the framework to build an interactive database for collections of transcriptomic data from any organism, generated in any platform.

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Genetics

Using the GAL4-UAS System for Functional Genetics in Anopheles gambiae
Beth Crawford Poulton 1, Fraser Colman 1, Amalia Anthousi 1,2,3, Linda Grigoraki 1, Adriana Adolfi 1, Amy Lynd 1, Gareth John Lycett 1
1Department of Vector Biology, Liverpool School of Tropical Medicine, 2IMBB FORTH, 3Department of Biology, University of Crete

The bipartite GAL4-UAS system is a versatile tool for modification of gene expression in a controlled spatiotemporal manner which permits functional genetic analysis in Anopheles gambiae. The procedures described for using this system are a semi-standardized cloning strategy, sexing and screening of pupae for fluorescent protein markers and embryo fixation.

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Genetics

Site-Directed φC31-Mediated Integration and Cassette Exchange in Anopheles Vectors of Malaria
Adriana Adolfi 1,2, Amy Lynd 1, Gareth J. Lycett 1, Anthony A. James 2,3
1Vector Biology Department, Liverpool School of Tropical Medicine, 2Department of Microbiology & Molecular Genetics, University of California, 3Department of Molecular Biology & Biochemistry, University of California

The protocol describes how to achieve site-directed modifications in the genome of Anopheles malaria mosquitoes using the φC31 system. Modifications described include both the integration and the exchange of transgenic cassettes in the genome of attP-bearing docking lines.

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Genetics

Small-Cage Laboratory Trials of Genetically-Engineered Anopheline Mosquitoes
Rebeca Carballar-Lejarazú 1, Thai Binh Pham 2, Vanessa Bottino-Rojas 1, Adriana Adolfi 1,3, Anthony A. James 1,2
1Department of Microbiology & Molecular Genetics, University of California, Irvine, 2Department of Molecular Biology & Biochemistry, University of California, Irvine, 3Vector Biology Department, Liverpool School of Tropical Medicine

The protocols reported here illustrate three alternative ways to assess the performance of genetically-engineered mosquitoes destined for vector control in laboratory-contained small cage trials. Each protocol is tailored to the specific modification the mosquito strain bears (gene drive or non-gene drive) and the types of parameters measured.

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