H
Hans-Peter Horz
Researcher at RWTH Aachen University
Publications - 54
Citations - 3532
Hans-Peter Horz is an academic researcher from RWTH Aachen University. The author has contributed to research in topics: Microbiome & Terminal restriction fragment length polymorphism. The author has an hindex of 30, co-authored 53 publications receiving 3077 citations. Previous affiliations of Hans-Peter Horz include Max Planck Society & Stanford University.
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Ammonia-oxidizing bacteria respond to multifactorial global change.
TL;DR: This work examined the response of ammonia-oxidizing bacteria (AOB), microorganisms that mediate the transformation of ammonia into nitrite, to simultaneous increases in atmospheric CO2, precipitation, temperature, and nitrogen deposition, manipulated on the ecosystem level in a California grassland.
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Detection of methanotroph diversity on roots of submerged rice plants by molecular retrieval of pmoA, mmoX, mxaF, and 16S rRNA and ribosomal DNA, including pmoA-based terminal restriction fragment length polymorphism profiling.
TL;DR: The comparison of pmoA-based T-RFLP profiles obtained from rice roots and bulk soil of flooded rice microcosms suggested that there was a substantially higher abundance of type I methanotrophs on rice roots than in the bulk soil.
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Viruses versus bacteria—novel approaches to phage therapy as a tool against multidrug-resistant pathogens
TL;DR: This review presents novel strategies for phage-related therapies and describes the current knowledge of natural bacteriophages within the human microbiome to provide an overview of the high number of different methodological concepts.
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Fighting Pathogenic Bacteria on Two Fronts: Phages and Antibiotics as Combined Strategy.
TL;DR: This review gathers and compares the results from most relevant studies and may serve as a framework for directed further experimental approaches to ultimately achieve a resolute challenge of multidrug resistant bacteria based on traditional antibiotics and phages.
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In vivo evaluation of microbial reduction after chemo-mechanical preparation of human root canals containing necrotic pulp tissue.
TL;DR: NaOCl has not only a higher capacity to kill microorganisms but is also more able to remove cells from the root canal.