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Konrad Rudolph

Senior research engineer
Cambridge, United Kingdom
http://klmr.me klmr klmr
Last active on Stack Overflow today

I am a software developer & research scientist. I hold a PhD in bioinformatics/genomic data analysis, a topic which is of central importance in answering diverse biological and medical questions.

My background is in algorithm development and high-performance implementation. In addition I have always had a special interest in programming language design and software engineering best practices. I’m also a typography nerd.

I am a software developer & research scientist. I hold a PhD in bioinformatics/genomic data analysis, a topic which is of central importance in answering diverse biological and medical questions.

My background is in algorithm development and high-performance implementation. In addition I have always had a special interest in programming language design and software engineering best practices. I’m also a typography nerd.

Favorite editor: Neovim • First computer: IBM ThinkPad 700
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Position Oct 2017 → Current (1 year, 8 months)
Senior research engineer at PetaGene

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Open source May 2013 → Current (6 years)
Last commit on Aug 17, 18
450 Commits / 6,690 ++ / 3,318 --

An alternative (Python style) module system for R

Author and main contributor

An alternative (Python style) module system for R

Author and main contributor

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Blogs or videos May 2019

RNA flow between organisms has been documented within and among different kingdoms of life. Recently, we demonstrated horizontal RNA transfer between honeybees involving secretion and ingestion of worker and royal jellies. However, how the jelly facilitates transfer of RNA is still unknown. Here, we show that worker and royal jellies harbor robust RNA-binding activity. We report that a highly abundant jelly component, major royal jelly protein 3 (MRJP-3), acts as an extracellular non-sequence-specific RNA-aggregating factor. Multivalent RNA binding stimulates higher-order assembly of MRJP-3 into extracellular ribonucleoprotein granules that protect RNA from degradation and enhance RNA bioavailability. These findings reveal that honeybees have evolved a secreted dietary RNA-binding factor to concentrate, stabilize, and share RNA among individuals. Our work identifies high-order ribonucleoprotein assemblies with functions outside cells and organisms.

RNA flow between organisms has been documented within and among different kingdoms of life. Recently, we demonstrated horizontal RNA transfer between honeybees involving secretion and ingestion of worker and royal jellies. However, how the jelly facilitates transfer of RNA is still unknown. Here, we show that worker and royal jellies harbor robust RNA-binding activity. We report that a highly abundant jelly component, major royal jelly protein 3 (MRJP-3), acts as an extracellular non-sequence-specific RNA-aggregating factor. Multivalent RNA binding stimulates higher-order assembly of MRJP-3 into extracellular ribonucleoprotein granules that protect RNA from degradation and enhance RNA bioavailability. These findings reveal that honeybees have evolved a secreted dietary RNA-binding factor to concentrate, stabilize, and share RNA among individuals. Our work identifies high-order ribonucleoprotein assemblies with functions outside cells and organisms.

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Blogs or videos Aug 2018

RNA viruses are a major threat to animals and plants. RNA interference (RNAi) and the interferon response provide innate antiviral defense against RNA viruses. Here, we performed a large-scale screen using Caenorhabditis elegans and its natural pathogen the Orsay virus (OrV), and we identified cde-1 as important for antiviral defense. CDE-1 is a homolog of the mammalian TUT4 and TUT7 terminal uridylyltransferases (collectively called TUT4(7)); its catalytic activity is required for its antiviral function. CDE-1 uridylates the 3′ end of the OrV RNA genome and promotes its degradation in a manner independent of the RNAi pathway. Likewise, TUT4(7) enzymes uridylate influenza A virus (IAV) mRNAs in mammalian cells. Deletion of TUT4(7) leads to increased IAV mRNA and protein levels. Collectively, these data implicate 3′-terminal uridylation of viral RNAs as a conserved antiviral defense mechanism.

RNA viruses are a major threat to animals and plants. RNA interference (RNAi) and the interferon response provide innate antiviral defense against RNA viruses. Here, we performed a large-scale screen using Caenorhabditis elegans and its natural pathogen the Orsay virus (OrV), and we identified cde-1 as important for antiviral defense. CDE-1 is a homolog of the mammalian TUT4 and TUT7 terminal uridylyltransferases (collectively called TUT4(7)); its catalytic activity is required for its antiviral function. CDE-1 uridylates the 3′ end of the OrV RNA genome and promotes its degradation in a manner independent of the RNAi pathway. Likewise, TUT4(7) enzymes uridylate influenza A virus (IAV) mRNAs in mammalian cells. Deletion of TUT4(7) leads to increased IAV mRNA and protein levels. Collectively, these data implicate 3′-terminal uridylation of viral RNAs as a conserved antiviral defense mechanism.

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Blogs or videos Apr 2018

The generation of genomic data is continuously getting cheaper, more reliable, and is finding more applications. But the computational analysis of sequencing data remains a bottleneck. Furthermore, the data storage during the analysis, and the long-term archival of the mounting genomic sequencing data, have become substantial cost factors. While storage media cost is decreasing, it does so at a much slower pace than the reduction in the cost of sequencing, and the increase in the amount of genomic data.

As a consequence, the overall cost for the storage of genomic sequencing data is increasing drastically. This article explores the role of domain-specific compression algorithms in reducing the cost of genomic sequencing research.

The generation of genomic data is continuously getting cheaper, more reliable, and is finding more applications. But the computational analysis of sequencing data remains a bottleneck. Furthermore, the data storage during the analysis, and the long-term archival of the mounting genomic sequencing data, have become substantial cost factors. While storage media cost is decreasing, it does so at a much slower pace than the reduction in the cost of sequencing, and the increase in the amount of genomic data.

As a consequence, the overall cost for the storage of genomic sequencing data is increasing drastically. This article explores the role of domain-specific compression algorithms in reducing the cost of genomic sequencing research.

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Position May 2016 → Oct 2017 (1 year, 6 months)

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Blogs or videos Apr 2017

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Open source Feb 2013 → Nov 2016 (3 years, 10 months)

A small project demonstrating how to create custom, named infix operators in C++.

Sole programmer

A small project demonstrating how to create custom, named infix operators in C++.

Sole programmer

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Blogs or videos May 2016

Do mammalian cells employ codon usage alterations in groups of transcripts to control protein translation? Although long documented in prokaryotes, single-cell eukaryotes and protozoa, no convincing evidence has been presented to indicate this is the case in mammals. Nevertheless, many recent studies have asserted that codon usage can deviate from the genomic or transcriptomic background in a functionally impactful manner. For instance, one recent study suggests that mammalian genes associated with specific GO terms show ‘codon adaptation’ towards proliferation and differentiation. We have tested a number of closely related hypotheses by collecting and analyzing a comprehensive, genome-wide set of data that quantifies codons in mRNA as well as anticodons in tRNA transcriptomes in extreme cell conditions in human and mouse. The hypotheses our data test include suggestions that codon usage biases in mammals can be actively regulated to match: (a) most-highly differentially expressed protein coding genes, (b) condition specific GO gene sets, (c) housekeeping genes, (d) genes encoding ribosomal proteins, (e) proliferation-associated protein-coding genes. We found that of the codon usage signal that remains after accounting for gene set sizes and other genomic factors is caused largely by the underlying GC content of the genomes. In other words, codon usage biases postulated to exist within mammalian transcriptomes might be explained by small gene sets or via differences in GC content across the genome.

Do mammalian cells employ codon usage alterations in groups of transcripts to control protein translation? Although long documented in prokaryotes, single-cell eukaryotes and protozoa, no convincing evidence has been presented to indicate this is the case in mammals. Nevertheless, many recent studies have asserted that codon usage can deviate from the genomic or transcriptomic background in a functionally impactful manner. For instance, one recent study suggests that mammalian genes associated with specific GO terms show ‘codon adaptation’ towards proliferation and differentiation. We have tested a number of closely related hypotheses by collecting and analyzing a comprehensive, genome-wide set of data that quantifies codons in mRNA as well as anticodons in tRNA transcriptomes in extreme cell conditions in human and mouse. The hypotheses our data test include suggestions that codon usage biases in mammals can be actively regulated to match: (a) most-highly differentially expressed protein coding genes, (b) condition specific GO gene sets, (c) housekeeping genes, (d) genes encoding ribosomal proteins, (e) proliferation-associated protein-coding genes. We found that of the codon usage signal that remains after accounting for gene set sizes and other genomic factors is caused largely by the underlying GC content of the genomes. In other words, codon usage biases postulated to exist within mammalian transcriptomes might be explained by small gene sets or via differences in GC content across the genome.

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Position Sep 2015 → Mar 2016 (7 months)
Postdoctoral fellow at EMBL-EBI

I’ve worked on codon bias and its control via tRNA abundance in mammals. I was the computational lead and co-conceived the design of the study, published in PLOS Genetics.

I’ve worked on codon bias and its control via tRNA abundance in mammals. I was the computational lead and co-conceived the design of the study, published in PLOS Genetics.

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Education 2011 → 2015
PhD, University of Cambridge

PhD thesis titled “Investigating the link between tRNA and mRNA abundance in mammals”.

Affiliated with St Edmund’s College.

Supervisor: John Marioni.

PhD thesis titled “Investigating the link between tRNA and mRNA abundance in mammals”.

Affiliated with St Edmund’s College.

Supervisor: John Marioni.

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Position Oct 2011 → Sep 2015 (4 years)
Predoctoral fellow at EMBL-EBI

Analysis of next-generation sequencing data in the context of cancer development via various statistical methods.

Similar data analysis to investigate the regulation of gene expression on the level of tRNA gene expression across tissues, developmental stages and organisms.

Analysis of next-generation sequencing data in the context of cancer development via various statistical methods.

Similar data analysis to investigate the regulation of gene expression on the level of tRNA gene expression across tissues, developmental stages and organisms.

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Blogs or videos Aug 2014

The genetic code is an abstraction of how mRNA codons and tRNA anticodons molecularly interact during protein synthesis; the stability and regulation of this interaction remains largely unexplored. Here, we characterized the expression of mRNA and tRNA genes quantitatively at multiple time points in two developing mouse tissues. We discovered that mRNA codon pools are highly stable over development and simply reflect the genomic background; in contrast, precise regulation of tRNA gene families is required to create the corresponding tRNA transcriptomes. The dynamic regulation of tRNA genes during development is controlled in order to generate an anticodon pool that closely corresponds to messenger RNAs. Thus, across development, the pools of mRNA codons and tRNA anticodons are invariant and highly correlated, revealing a stable molecular interaction interlocking transcription and translation.

The genetic code is an abstraction of how mRNA codons and tRNA anticodons molecularly interact during protein synthesis; the stability and regulation of this interaction remains largely unexplored. Here, we characterized the expression of mRNA and tRNA genes quantitatively at multiple time points in two developing mouse tissues. We discovered that mRNA codon pools are highly stable over development and simply reflect the genomic background; in contrast, precise regulation of tRNA gene families is required to create the corresponding tRNA transcriptomes. The dynamic regulation of tRNA genes during development is controlled in order to generate an anticodon pool that closely corresponds to messenger RNAs. Thus, across development, the pools of mRNA codons and tRNA anticodons are invariant and highly correlated, revealing a stable molecular interaction interlocking transcription and translation.

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Open source Jan 2010 → Mar 2013 (3 years, 3 months)

minted is a LaTeX package that provides syntax highlighting using the Pygments library. Highlighted source code can be customized using fancyvrb.

Author and sole contributor of version 1, handed over development of version 2.

minted is a LaTeX package that provides syntax highlighting using the Pygments library. Highlighted source code can be customized using fancyvrb.

Author and sole contributor of version 1, handed over development of version 2.

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48
Top post Apr 2012

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Education 2008 → 2011
M. Sc. Bioinformatics, Freie Universität Berlin

Master thesis on the Generic Parallelization of a Sequence Analysis Library, aka. “SEQAN×N”.

The thesis extends a sequence analysis library by adding a framework for the automatic parallelisation of existing algorithms. This means: the framework allows you to take existing algorithms and run them efficiently in parallel, with only minimal changes. The framework achieves a linear speed-up in the number of CPUs and has a very small overhead.

Master thesis on the Generic Parallelization of a Sequence Analysis Library, aka. “SEQAN×N”.

The thesis extends a sequence analysis library by adding a framework for the automatic parallelisation of existing algorithms. This means: the framework allows you to take existing algorithms and run them efficiently in parallel, with only minimal changes. The framework achieves a linear speed-up in the number of CPUs and has a very small overhead.

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Position Jun 2011 → Aug 2011 (3 months)
Consultant

Exploration of a library binding between C++ and custom FPGAs that implement highly parallel sequence alignment, for use in a sequence analysis library.

Exploration of a library binding between C++ and custom FPGAs that implement highly parallel sequence alignment, for use in a sequence analysis library.

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58
Top post May 2011

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Position Apr 2008 → Mar 2011 (3 years)
Tutor at Freie Universität Berlin

I hold tutorials at University. Tutorials I have given include introductory CS courses (CS 102 and CS 102 as minor studies), Algorithms and Data Structures in Bioinformatics, and Introduction into Database Systems.

The tutorials on algorithms in bioinformatics as well as database systems were accompanied by programming projects which I supervised and graded and (in the case of bioinformatics) whose contents I conceived.

I hold tutorials at University. Tutorials I have given include introductory CS courses (CS 102 and CS 102 as minor studies), Algorithms and Data Structures in Bioinformatics, and Introduction into Database Systems.

The tutorials on algorithms in bioinformatics as well as database systems were accompanied by programming projects which I supervised and graded and (in the case of bioinformatics) whose contents I conceived.

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101
Top post Nov 2010

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Open source Oct 2008 → May 2010 (1 year, 8 months)

Configurable server-side syntax highlighter in PHP

Configurable server-side syntax highlighter in PHP

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335
Top post Dec 2009

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52
Top post Nov 2009

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Position Jun 2009 → Sep 2009 (4 months)
Developer at Max Planck Society

Objective

Development of a Java GUI tool for the analysis of biochemical networks based on the Petri net formalism. The tool implements several published algorithms that analyze various aspects of Petri nets.

Contributions

I conceived the software design of the application and designed a plugin interface to make extending the tool with other algorithms possible, and wrote a large part of the software’s code.

I also co-authored and presented a poster about the tool at the German Conference of Bioinformatics 2009.

Objective

Development of a Java GUI tool for the analysis of biochemical networks based on the Petri net formalism. The tool implements several published algorithms that analyze various aspects of Petri nets.

Contributions

I conceived the software design of the application and designed a plugin interface to make extending the tool with other algorithms possible, and wrote a large part of the software’s code.

I also co-authored and presented a poster about the tool at the German Conference of Bioinformatics 2009.

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52
Top post Feb 2009

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Position Oct 2008 → Feb 2009 (5 months)
Research associate (intern) at Illumina

Objective

I’ve researched the possibility of using the (then current) Nvidia GPUs to improve performance of a high-speed algorithm used in sequence analysis.

Results

Due to the huge data load and low arithmetic density of the algorithm, the platform wasn’t very well-suited for this particular algorithm, or for sequence alignment in general. However, this needs to be re-evaluated now that the new Nvidia architecture supports a powerful on-chip cache which may drastically reduce the data throughput from RAM to GPU.

Objective

I’ve researched the possibility of using the (then current) Nvidia GPUs to improve performance of a high-speed algorithm used in sequence analysis.

Results

Due to the huge data load and low arithmetic density of the algorithm, the platform wasn’t very well-suited for this particular algorithm, or for sequence alignment in general. However, this needs to be re-evaluated now that the new Nvidia architecture supports a powerful on-chip cache which may drastically reduce the data throughput from RAM to GPU.

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Education 2004 → 2008
B. Sc. Bioinformatics, Freie Universität Berlin

Bachelor thesis about the Implementation of a Read Mapping Tool Based on the Pigeon-hole Principle.

The thesis describes a method applied in the successful Eland tool to solve the problem of high-performance read mapping and an implementation of the algorithm using a C++ library for bioinformatics (SeqAn).

During the studies, I also contributed a binding and interface adapter for compressed index data structures to the SeqAn library.

Bachelor thesis about the Implementation of a Read Mapping Tool Based on the Pigeon-hole Principle.

The thesis describes a method applied in the successful Eland tool to solve the problem of high-performance read mapping and an implementation of the algorithm using a C++ library for bioinformatics (SeqAn).

During the studies, I also contributed a binding and interface adapter for compressed index data structures to the SeqAn library.

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Position Jan 2007 → Jan 2008 (1 year, 1 month)
Developer at iTosa

Objective

Development of an assistant-based graphical application (“iTosa”) that enables users to create domain-specific database front-ends (e.g. a custom-taylored till software) without requiring any knowledge of databases or programming. The application used the input to generate a (hosted or self-hosted) web-based front-end.

The user enters the domain model in a simple question-answer driven manner, describing the entities of their business, as well as their relationships. This model is then translated into an object-relational mapping, and then into a entity-relational schema to create an SQL database back-end on the one hand, and an administration GUI on the other hand.

Furthermore, the user enters business work flows (e.g. “customer buys a good”) by specifying the necessary steps in the process. From this, a state machine is derived and an appropriate assistant GUI is generated.

Contributions

I have contributed three parts to this project.

Smart client GUI development

The graphical user interface and the assistant dialogs of iTosa. While the GUI design was done elsewhere, I used the design to develop an MVC/WinForms-based application in C#.

Web development

A structural scaffold in PHP, HTML, CSS and JavaScript that consists of a library for the (service-based) database communication, and a MVC framework used to implement the individually generated web front-ends. This also includes templates which are used by the front-end generator.

Front-end generator

A C# library which generates the web application based on the user-defined domain model. The finished web application is highly customizable in every layer (corporate design, layout, custom plug-ins and behaviour) by the client. Changes to the model and subsequent re-generation of the web front-end do not destroy such customizations.

Objective

Development of an assistant-based graphical application (“iTosa”) that enables users to create domain-specific database front-ends (e.g. a custom-taylored till software) without requiring any knowledge of databases or programming. The application used the input to generate a (hosted or self-hosted) web-based front-end.

The user enters the domain model in a simple question-answer driven manner, describing the entities of their business, as well as their relationships. This model is then translated into an object-relational mapping, and then into a entity-relational schema to create an SQL database back-end on the one hand, and an administration GUI on the other hand.

Furthermore, the user enters business work flows (e.g. “customer buys a good”) by specifying the necessary steps in the process. From this, a state machine is derived and an appropriate assistant GUI is generated.

Contributions

I have contributed three parts to this project.

Smart client GUI development

The graphical user interface and the assistant dialogs of iTosa. While the GUI design was done elsewhere, I used the design to develop an MVC/WinForms-based application in C#.

Web development

A structural scaffold in PHP, HTML, CSS and JavaScript that consists of a library for the (service-based) database communication, and a MVC framework used to implement the individually generated web front-ends. This also includes templates which are used by the front-end generator.

Front-end generator

A C# library which generates the web application based on the user-defined domain model. The finished web application is highly customizable in every layer (corporate design, layout, custom plug-ins and behaviour) by the client. Changes to the model and subsequent re-generation of the web front-end do not destroy such customizations.

Recommended reading

by A.V. Aho, Monica S Lam, R. Sethi, Jeffrey D. Ullman
by Éva Tardos, Jon Kleinberg
by Richard P. Feynman

Konrad Rudolph

Cambridge, United Kingdom http://klmr.me

I am a software developer & research scientist. I hold a PhD in bioinformatics/genomic data analysis, a topic which is of central importance in answering diverse biological and medical questions.

My background is in algorithm development and high-performance implementation. In addition I have always had a special interest in programming language design and software engineering best practices. I’m also a typography nerd.

Technical Skills

Likes: r c++ unix f# rust
Dislikes: php finance trading

Experience

Oct 2017 → Current Senior research engineer PetaGene
May 2016 → Oct 2017 Research associate The Gurdon Institute/University of Cambridge
bioinformatics, statistics, r, ngs
Sep 2015 → Mar 2016 Postdoctoral fellow EMBL-EBI
bioinformatics, r, statistics, ngs, bash, makefile

I’ve worked on codon bias and its control via tRNA abundance in mammals. I was the computational lead and co-conceived the design of the study, published in PLOS Genetics.

Oct 2011 → Sep 2015 Predoctoral fellow EMBL-EBI
bioinformatics, c++, r, statistics, ngs, bash, makefile

Analysis of next-generation sequencing data in the context of cancer development via various statistical methods.

Similar data analysis to investigate the regulation of gene expression on the level of tRNA gene expression across tissues, developmental stages and organisms.

Jun 2011 → Aug 2011 Consultant
c++, fpga

Exploration of a library binding between C++ and custom FPGAs that implement highly parallel sequence alignment, for use in a sequence analysis library.

Apr 2008 → Mar 2011 Tutor Freie Universität Berlin
teaching, algorithm, c++, java, database

I hold tutorials at University. Tutorials I have given include introductory CS courses (CS 102 and CS 102 as minor studies), Algorithms and Data Structures in Bioinformatics, and Introduction into Database Systems.

The tutorials on algorithms in bioinformatics as well as database systems were accompanied by programming projects which I supervised and graded and (in the case of bioinformatics) whose contents I conceived.

Jun 2009 → Sep 2009 Developer Max Planck Society
java, petri-nets, graph, swing

Objective

Development of a Java GUI tool for the analysis of biochemical networks based on the Petri net formalism. The tool implements several published algorithms that analyze various aspects of Petri nets.

Contributions

I conceived the software design of the application and designed a plugin interface to make extending the tool with other algorithms possible, and wrote a large part of the software’s code.

I also co-authored and presented a poster about the tool at the German Conference of Bioinformatics 2009.

Oct 2008 → Feb 2009 Research associate (intern) Illumina
c++, nvidia, gpu, cuda

Objective

I’ve researched the possibility of using the (then current) Nvidia GPUs to improve performance of a high-speed algorithm used in sequence analysis.

Results

Due to the huge data load and low arithmetic density of the algorithm, the platform wasn’t very well-suited for this particular algorithm, or for sequence alignment in general. However, this needs to be re-evaluated now that the new Nvidia architecture supports a powerful on-chip cache which may drastically reduce the data throughput from RAM to GPU.

Jan 2007 → Jan 2008 Developer iTosa
c#, .net, winforms, php, smarty, html, css, ajax, wsdl

Objective

Development of an assistant-based graphical application (“iTosa”) that enables users to create domain-specific database front-ends (e.g. a custom-taylored till software) without requiring any knowledge of databases or programming. The application used the input to generate a (hosted or self-hosted) web-based front-end.

The user enters the domain model in a simple question-answer driven manner, describing the entities of their business, as well as their relationships. This model is then translated into an object-relational mapping, and then into a entity-relational schema to create an SQL database back-end on the one hand, and an administration GUI on the other hand.

Furthermore, the user enters business work flows (e.g. “customer buys a good”) by specifying the necessary steps in the process. From this, a state machine is derived and an appropriate assistant GUI is generated.

Contributions

I have contributed three parts to this project.

Smart client GUI development

The graphical user interface and the assistant dialogs of iTosa. While the GUI design was done elsewhere, I used the design to develop an MVC/WinForms-based application in C#.

Web development

A structural scaffold in PHP, HTML, CSS and JavaScript that consists of a library for the (service-based) database communication, and a MVC framework used to implement the individually generated web front-ends. This also includes templates which are used by the front-end generator.

Front-end generator

A C# library which generates the web application based on the user-defined domain model. The finished web application is highly customizable in every layer (corporate design, layout, custom plug-ins and behaviour) by the client. Changes to the model and subsequent re-generation of the web front-end do not destroy such customizations.

Education

2011 → 2015 PhD University of Cambridge
bioinformatics, statistics, r, c++, ngs, genomics

PhD thesis titled “Investigating the link between tRNA and mRNA abundance in mammals”.

Affiliated with St Edmund’s College.

Supervisor: John Marioni.

2008 → 2011 M. Sc. Bioinformatics Freie Universität Berlin
c++, algorithms, discrete-mathematics, numerical-analysis, systems-biology, medical-imaging, networks, virtual-screening, teaching

Master thesis on the Generic Parallelization of a Sequence Analysis Library, aka. “SEQAN×N”.

The thesis extends a sequence analysis library by adding a framework for the automatic parallelisation of existing algorithms. This means: the framework allows you to take existing algorithms and run them efficiently in parallel, with only minimal changes. The framework achieves a linear speed-up in the number of CPUs and has a very small overhead.

2004 → 2008 B. Sc. Bioinformatics Freie Universität Berlin
sequence-analysis, networks, graphs, statistics, machine-learning, heuristics, string-search, index-datastructures, databases, biochemistry

Bachelor thesis about the Implementation of a Read Mapping Tool Based on the Pigeon-hole Principle.

The thesis describes a method applied in the successful Eland tool to solve the problem of high-performance read mapping and an implementation of the algorithm using a C++ library for bioinformatics (SeqAn).

During the studies, I also contributed a binding and interface adapter for compressed index data structures to the SeqAn library.

Projects & Interests

Aug 2008 → Current Stack Overflow https://stackoverflow.com/users/1968/konrad-rudolph
Written 3716 answers. Active in .net, algorithm, c, c#, c++ and 57 other tags.
May 2013 → Current modules https://github.com/klmr/modules
r

An alternative (Python style) module system for R

Author and main contributor

Feb 2013 → Nov 2016 named-operator https://github.com/klmr/named-operator
c++

A small project demonstrating how to create custom, named infix operators in C++.

Sole programmer

Jan 2010 → Mar 2013 minted https://github.com/gpoore/minted
tex

minted is a LaTeX package that provides syntax highlighting using the Pygments library. Highlighted source code can be customized using fancyvrb.

Author and sole contributor of version 1, handed over development of version 2.

Oct 2008 → May 2010 hyperlight https://github.com/klmr/hyperlight
php

Configurable server-side syntax highlighter in PHP

Public Artifacts

May 2019 A secreted RNA binding protein forms RNA-stabilizing granules in the honeybee royal jelly https://doi.org/10.1016/j.molcel.2019.03.010

RNA flow between organisms has been documented within and among different kingdoms of life. Recently, we demonstrated horizontal RNA transfer between honeybees involving secretion and ingestion of worker and royal jellies. However, how the jelly facilitates transfer of RNA is still unknown. Here, we show that worker and royal jellies harbor robust RNA-binding activity. We report that a highly abundant jelly component, major royal jelly protein 3 (MRJP-3), acts as an extracellular non-sequence-specific RNA-aggregating factor. Multivalent RNA binding stimulates higher-order assembly of MRJP-3 into extracellular ribonucleoprotein granules that protect RNA from degradation and enhance RNA bioavailability. These findings reveal that honeybees have evolved a secreted dietary RNA-binding factor to concentrate, stabilize, and share RNA among individuals. Our work identifies high-order ribonucleoprotein assemblies with functions outside cells and organisms.

Aug 2018 Terminal uridylyltransferases target RNA viruses as part of the innate immune system https://doi.org/10.1038/s41594-018-0106-9

RNA viruses are a major threat to animals and plants. RNA interference (RNAi) and the interferon response provide innate antiviral defense against RNA viruses. Here, we performed a large-scale screen using Caenorhabditis elegans and its natural pathogen the Orsay virus (OrV), and we identified cde-1 as important for antiviral defense. CDE-1 is a homolog of the mammalian TUT4 and TUT7 terminal uridylyltransferases (collectively called TUT4(7)); its catalytic activity is required for its antiviral function. CDE-1 uridylates the 3′ end of the OrV RNA genome and promotes its degradation in a manner independent of the RNAi pathway. Likewise, TUT4(7) enzymes uridylate influenza A virus (IAV) mRNAs in mammalian cells. Deletion of TUT4(7) leads to increased IAV mRNA and protein levels. Collectively, these data implicate 3′-terminal uridylation of viral RNAs as a conserved antiviral defense mechanism.

Apr 2018 Data Compression in “Genomic Data 101: 2018 Edition” http://www.frontlinegenomics.com/magazine/21442/genomic-data-101-2018-edition/
compression, genomics, storage

The generation of genomic data is continuously getting cheaper, more reliable, and is finding more applications. But the computational analysis of sequencing data remains a bottleneck. Furthermore, the data storage during the analysis, and the long-term archival of the mounting genomic sequencing data, have become substantial cost factors. While storage media cost is decreasing, it does so at a much slower pace than the reduction in the cost of sequencing, and the increase in the amount of genomic data.

As a consequence, the overall cost for the storage of genomic sequencing data is increasing drastically. This article explores the role of domain-specific compression algorithms in reducing the cost of genomic sequencing research.

Aug 2017 The helicase Aquarius/EMB-4 is required to overcome intronic barriers to allow nuclear RNAi pathways to heritably silence transcription http://dx.doi.org/10.1016/j.devcel.2017.07.002
Apr 2017 The profile and dynamics of RNA modifications in animals http://dx.doi.org/10.1002/cbic.201700093
May 2016 Codon-driven translational efficiency is stable across diverse mammalian cell States http://dx.doi.org/10.1371/journal.pgen.1006024

Do mammalian cells employ codon usage alterations in groups of transcripts to control protein translation? Although long documented in prokaryotes, single-cell eukaryotes and protozoa, no convincing evidence has been presented to indicate this is the case in mammals. Nevertheless, many recent studies have asserted that codon usage can deviate from the genomic or transcriptomic background in a functionally impactful manner. For instance, one recent study suggests that mammalian genes associated with specific GO terms show ‘codon adaptation’ towards proliferation and differentiation. We have tested a number of closely related hypotheses by collecting and analyzing a comprehensive, genome-wide set of data that quantifies codons in mRNA as well as anticodons in tRNA transcriptomes in extreme cell conditions in human and mouse. The hypotheses our data test include suggestions that codon usage biases in mammals can be actively regulated to match: (a) most-highly differentially expressed protein coding genes, (b) condition specific GO gene sets, (c) housekeeping genes, (d) genes encoding ribosomal proteins, (e) proliferation-associated protein-coding genes. We found that of the codon usage signal that remains after accounting for gene set sizes and other genomic factors is caused largely by the underlying GC content of the genomes. In other words, codon usage biases postulated to exist within mammalian transcriptomes might be explained by small gene sets or via differences in GC content across the genome.

Aug 2014 High-resolution mapping of transcriptional dynamics across tissue development reveals a stable mRNA–tRNA interface http://dx.doi.org/10.1101/gr.176784.114

The genetic code is an abstraction of how mRNA codons and tRNA anticodons molecularly interact during protein synthesis; the stability and regulation of this interaction remains largely unexplored. Here, we characterized the expression of mRNA and tRNA genes quantitatively at multiple time points in two developing mouse tissues. We discovered that mRNA codon pools are highly stable over development and simply reflect the genomic background; in contrast, precise regulation of tRNA gene families is required to create the corresponding tRNA transcriptomes. The dynamic regulation of tRNA genes during development is controlled in order to generate an anticodon pool that closely corresponds to messenger RNAs. Thus, across development, the pools of mRNA codons and tRNA anticodons are invariant and highly correlated, revealing a stable molecular interaction interlocking transcription and translation.

Readings

Effective C++: 55 specific ways to improve your programs and designs Scott Meyers http://www.amazon.co.uk/Effective-Specific-Programs-Professional-Computing/dp/0321334876
Compilers: principles, techniques, and tools A.V. Aho, Monica S Lam, R. Sethi, Jeffrey D. Ullman http://www.amazon.co.uk/Compilers-Principles-Techniques-A-V-Aho/dp/1292024348
Algorithm design Éva Tardos, Jon Kleinberg https://www.pearsonhighered.com/program/Kleinberg-Algorithm-Design/PGM319216.html
The pleasure of finding things out Richard P. Feynman https://en.wikipedia.org/wiki/The_Pleasure_of_Finding_Things_Out

Tools

First Computer: IBM ThinkPad 700
Favorite Editor: Neovim