H-Index & Metrics Best Publications

H-Index & Metrics

Discipline name H-index Citations Publications World Ranking National Ranking
Biology and Biochemistry D-index 67 Citations 16,208 181 World Ranking 3636 National Ranking 24

Overview

What is he best known for?

The fields of study he is best known for:

  • Gene
  • DNA
  • Biochemistry

His primary areas of study are Cell biology, Biochemistry, Endosome, Signal transduction and Endocytic cycle. The various areas that Lukas A. Huber examines in his Cell biology study include Biogenesis, Endocytosis and Cytoskeleton. His Endosome research includes elements of Roundabout and Anatomy.

His Signal transduction study combines topics from a wide range of disciplines, such as Kinase and Protein kinase A. He focuses mostly in the field of Endocytic cycle, narrowing it down to topics relating to Vesicle fusion and, in certain cases, Bulk endocytosis, Endocytic vesicle and Synaptic vesicle membrane. As part of the same scientific family, he usually focuses on Scaffold protein, concentrating on Signal transducing adaptor protein and intersecting with Mitogen-Activated Protein Kinase 3, Intracellular, Ragulator complex, Tissue homeostasis and MAP2K7.

His most cited work include:

  • Biogenesis of phagolysosomes proceeds through a sequential series of interactions with the endocytic apparatus (585 citations)
  • Arrest of mycobacterial phagosome maturation is caused by a block in vesicle fusion between stages controlled by rab5 and rab7 (492 citations)
  • SLC38A9 is a component of the lysosomal amino acid sensing machinery that controls mTORC1 (388 citations)

What are the main themes of his work throughout his whole career to date?

His primary scientific interests are in Cell biology, Endosome, Molecular biology, Biochemistry and Signal transduction. His research integrates issues of Endocytic cycle and Cell growth in his study of Cell biology. His Endocytic cycle research is multidisciplinary, relying on both Latex beads and Phagosome maturation.

The study incorporates disciplines such as Internalization and Endocytosis in addition to Endosome. His work focuses on many connections between Organelle and other disciplines, such as Cell fractionation, that overlap with his field of interest in Proteomics and Proteome. His MAPK/ERK pathway research includes themes of Scaffold protein, Signal transducing adaptor protein and Protein kinase A.

He most often published in these fields:

  • Cell biology (47.44%)
  • Endosome (16.67%)
  • Molecular biology (14.96%)

What were the highlights of his more recent work (between 2015-2021)?

  • Cell biology (47.44%)
  • Microvillus (5.13%)
  • mTORC1 (2.99%)

In recent papers he was focusing on the following fields of study:

Lukas A. Huber mostly deals with Cell biology, Microvillus, mTORC1, Endosome and Phenotype. His work carried out in the field of Cell biology brings together such families of science as Autophagy and Cellular homeostasis. He combines subjects such as Vesicle, Brush border and Pathology with his study of Microvillus.

His study in mTORC1 is interdisciplinary in nature, drawing from both Cellular differentiation and Motility. The concepts of his Endosome study are interwoven with issues in Lipid metabolism, Endocytosis, Organelle and Conditional gene knockout. His biological study spans a wide range of topics, including Cell surface receptor, Endocytic cycle, Compartmentalization and Intracellular.

Between 2015 and 2021, his most popular works were:

  • Lysosomal signaling in control of degradation pathways. (73 citations)
  • Crystal structure of the human lysosomal mTORC1 scaffold complex and its impact on signaling (58 citations)
  • LAMTOR/Ragulator is a negative regulator of Arl8b- and BORC-dependent late endosomal positioning (52 citations)

In his most recent research, the most cited papers focused on:

  • Gene
  • DNA
  • Genetics

His primary areas of investigation include Cell biology, Microvillus, Brush border, Mechanistic target of rapamycin and Vesicle. The Cell biology study combines topics in areas such as Autophagy and Cellular homeostasis. He has included themes like Phenotype and Exocytosis in his Microvillus study.

In his study, Myosin, Ussing chamber, Cystic fibrosis transmembrane conductance regulator, Cell membrane and Molecular biology is inextricably linked to Immunoelectron microscopy, which falls within the broad field of Brush border. His Signal transduction research incorporates elements of Protein domain, GTPase and Intracellular. Lukas A. Huber has researched Endosome in several fields, including Epidermal growth factor, Activator and Organelle.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Biogenesis of phagolysosomes proceeds through a sequential series of interactions with the endocytic apparatus

M Desjardins;LA Huber;RG Parton;G Griffiths.
Journal of Cell Biology (1994)

800 Citations

Arrest of mycobacterial phagosome maturation is caused by a block in vesicle fusion between stages controlled by rab5 and rab7

Laura E. Via;Dusanka Deretic;Roseann J. Ulmer;Nina S. Hibler.
Journal of Biological Chemistry (1997)

670 Citations

Rab8, a small GTPase involved in vesicular traffic between the TGN and the basolateral plasma membrane.

Lukas A. Huber;Sanjay Pimplikar;Robert G. Parton;Hilkka Virta.
Journal of Cell Biology (1993)

520 Citations

SLC38A9 is a component of the lysosomal amino acid sensing machinery that controls mTORC1

Manuele Rebsamen;Lorena Pochini;Taras Stasyk;Mariana E. G. de Araújo.
Nature (2015)

478 Citations

Analysis of CD44-containing lipid rafts: Recruitment of annexin II and stabilization by the actin cytoskeleton.

Snezhana Oliferenko;Karin Paiha;Thomas Harder;Volker Gerke.
Journal of Cell Biology (1999)

448 Citations

Localization of the MP1-MAPK scaffold complex to endosomes is mediated by p14 and required for signal transduction.

David Teis;Winfried Wunderlich;Lukas A. Huber;Lukas A. Huber.
Developmental Cell (2002)

432 Citations

Persistent STAT3 activation in colon cancer is associated with enhanced cell proliferation and tumor growth.

Florian M. Corvinus;Carina Orth;Richard Moriggl;Svetlana A. Tsareva.
Neoplasia (2005)

406 Citations

Rab GDP dissociation inhibitor as a general regulator for the membrane association of rab proteins.

Oliver Ullrich;Harald Stenmark;Kirill Alexandrov;Lukas A Huber.
Journal of Biological Chemistry (1993)

373 Citations

Guidelines for the next 10 years of proteomics

Marc R. Wilkins;Ron D. Appel;Jennifer E. Van Eyk;Maxey C.M. Chung.
Proteomics (2006)

371 Citations

Comm Sorts Robo to Control Axon Guidance at the Drosophila Midline

Krystyna Keleman;Srikanth Rajagopalan;Diana Cleppien;David Teis.
Cell (2002)

370 Citations

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