Genetically reproductive material from the laboratory

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02/14/2020 11:57

Genetically reproductive material from the laboratory

Dr. Christiane Menzfeld Öffentlichkeitsarbeit
Max-Planck-Institut für Biochemie

    The field of synthetic biology does not only observe and describe processes of life but also mimics them. A key characteristic of life is the ability to ability for replication, which means the maintenance of a chemical system. Scientists at the Max Planck Institute of Biochemistry in Martinsried generated a system, which is able to regenerate parts of its own DNA and protein building blocks. The results have now been published in Nature Communications.

    In the field of synthetic biology, researchers investigate so-called “bottom-up” processes, which means the generation of life mimicking systems from inanimate building blocks. One of the most fundamental characteristics of all living organism is the ability to conserve and reproduce itself as distinct entities. However, the artificial “bottom-up” approach to create a system, which is able to replicate itself, is a great experimental challenge. For the first time, scientists have succeeded in overcoming this hurdle and synthesizing such a system.

    A biological machine produces its own building blocks
    Hannes Mutschler, head of the research group "Biomimetic Systems" at the MPI for Biochemistry, and his team are dedicated to imitate the replication of genomes and protein synthesis with a “bottom-up” approach. Both processes are fundamental for the self-preservation and reproduction of biological systems. The researchers now succeeded in producing an in vitro system, in which both processes could take place simultaneously. "Our system is able to regenerate a significant proportion of its molecular components itself," explains Mutschler. In order to start this process, the researchers needed a construction manual as well as various molecular "machines" and nutrients. Translated into biological terms, this means the construction manual is DNA, which contains the information to produce proteins. Proteins are often referred to as "molecular machines" because they often act as catalysts, which accelerate biochemical reactions in organisms.
    The basic building blocks of DNA are the so-called nucleotides. Proteins are made of amino acids.

    Modular structure of the construction manual
    Specifically, the researchers have optimized an in vitro expression system that synthesizes proteins based on a DNA blueprint. Due to several improvements, the in vitro expression system is now able to synthesize proteins, known as DNA polymerases, very efficiently. These DNA polymerases then replicate the DNA using nucleotides. Kai Libicher, first author of the study, explains: "Unlike previous studies, our system is able to read and copy comparatively long DNA genomes.” The scientists assembled the artificial genomes from up to 11 ring-shaped pieces of DNA. This modular structure enables them to insert or remove certain DNA segments easily. The largest modular genome reproduced by the researchers in the study consists of more than 116,000 base pairs, reaching the genome length of very simply cells.

    Regeneration of proteins
    Apart from encoding polymerases that are important for DNA replication, the artificial genome contains blueprints for further proteins, such as 30 translation factors originating from the bacterium Escherischia coli. Translation factors are important for the translation of the DNA blueprint into the respective proteins. Thus, they are essential for self-replicating systems, which imitate biochemical processes. In order to show that the new in vitro expression system is not only able to reproduce DNA, but is also able to produce its own translation factors, the researchers used mass spectrometry. With this analytic method, they determined the amount of proteins produced by the system. Surprisingly, some of the translation factors were even present in larger quantities after the reaction than added before. According to the researchers, this is an important step towards a continuously self-replicating system that mimics biological processes.

    In the future, the scientists want to extend the artificial genome with additional DNA segments. In cooperation with colleagues from the research network MaxSynBio, they want produce an enveloped system that is able to remain viable by adding nutrients and disposing of waste products. Such a minimal cell could then be used, for example, in biotechnology as a tailor-made production machine for natural substances or as a platform for building even more complex life-like systems.


    Contact for scientific information:

    Dr. Hannes Mutschler
    Biomimetic Systems
    Max-Planck-Institut für Biochemie
    Am Klopferspitz 18
    82152 Martinsried

    E-Mail: mutschler@biochem.mpg.de


    Original publication:

    Kai Libicher, Renate Hornberger, Michael Heymann & Hannes Mutschler:
    In vitro self-replication and multicistronic expression of large synthetic genomes
    Nature Communications, February 2020
    DOI: 10.1038/s41467-020-14694-2


    Criteria of this press release:
    Journalists, Scientists and scholars
    Biology, Chemistry, Physics / astronomy
    transregional, national
    Research results, Scientific Publications
    English


    Scientists built a biological machine in vitro, which is capable of replicating itself.


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