Deep Neural Networks Outperform Human Expert’s Capacity in Characterizing Bioleaching Bacterial Biofilm Composition
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Supplementary files for the publication: Deep Neural Networks Outperform Human Expert’s Capacity in Characterizing Bioleaching Bacterial Biofilm Composition
SEEK ID: https://fairdomhub.org/investigations/281
Projects: SysMetEx
Investigation position:
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Created: 26th Feb 2019 at 12:42
Last updated: 14th Mar 2019 at 11:11
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Projects: SysMetEx, Kinetics on the move - Workshop 2016
Institutions: Università della Svizzera Italiana
Expertise: ODE modelling of biological interaction network, Bioinformatics
Tools: Python, c++, Java, bash, standard bioinformatic tools
Projects: SysMetEx
Institutions: University of Luxembourg
The main objective of the ERANET proposal Systems Biology Applications - ERASysAPP (app = application = translational systems biology) is to promote multidimensional and complementary European systems biology projects, programmes and research initiatives on a number of selected research topics. Inter alia, ERASysAPP will initiate, execute and monitor a number of joint transnational calls on systems biology research projects with a particular focus on applications - or in other words so called ...
Projects: SysVirDrug, SysMilk, SysMetEx, MetApp, IMOMESIC, WineSys, CropClock, SYSTERACT, XyloCut, RootBook, ROBUSTYEAST, LEANPROT, ErasysApp Funders
Web page: https://www.cobiotech.eu/about-cobiotech/erasysapp
Biomining is a biotechnological process carried out in many parts of the world that exploits acid loving microorganisms to extract metals from sulphide minerals. One industrial biomining method is called ‘heap bioleaching’ where typically copper containing minerals are piled into very large heaps, acid and microorganisms are added to the top and the soluble metal is collected at the heap base.
The role of the different types of microbes in the process is to speed up metal solubilisation by oxidising ...
Programme: ERASysAPP
Public web page: http://sysmetex.eu/index.html
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Submitter: Malte Herold
Investigation: Deep Neural Networks Outperform Human Expert’s ...
Assays: Code for image analysis, Imaging of leaching cultures
Snapshots: No snapshots
tbd
Submitter: Malte Herold
Assay type: Experimental Assay Type
Technology type: Confocal Laser Scanning Microscopy (CLSM)
Investigation: Deep Neural Networks Outperform Human Expert’s ...
Organisms: Acidithiobacillus caldus : Acidithiobacillus caldus ATCC 51756 (wild-type / wild-type), Leptospirillum ferriphilum : Leptospirillum ferriphilum DSM 14647 (wild-type / wild-type), Sulfobacillus thermosulfidooxidans : Sulfobacillus thermosulfidooxidans DSM 9293 (wild-type / wild-type)
SOPs: No SOPs
Data files: Images of mineral colonization
Snapshots: No snapshots
tbd
Submitter: Malte Herold
Biological problem addressed: Model Analysis Type
Investigation: Deep Neural Networks Outperform Human Expert’s ...
Organisms: No organisms
Models: No Models
SOPs: No SOPs
Data files: Code for image analyses
Snapshots: No snapshots
Archive contains python scripts for image analysis
Creators: Malte Herold, Antoine Buetti-Dinh
Submitter: Malte Herold
Investigations: Deep Neural Networks Outperform Human Expert’s ...
Studies: Deep Neural Networks Outperform Human Expert’s ...
Assays: Code for image analysis
Images used for training and validation of deep learning algorithm to determine biofilm composition of mixed species biofilms on mineral grains
Creators: Malte Herold, Soeren Bellenberg, Antoine Buetti-Dinh
Submitter: Malte Herold
Investigations: Deep Neural Networks Outperform Human Expert’s ...
Studies: Deep Neural Networks Outperform Human Expert’s ...
Assays: Imaging of leaching cultures