HomeSearchTranslate
PhotosBiographyFacebookTwitter

From Wikipedia, the free encyclopedia
Hendrik Dietz
Born(1977-12-18)18 December 1977
Dresden, Germany
NationalityGerman
Alma mater Technical University Munich
Ludwig Maximilian University of Munich
Paderborn University
Known for DNA Origami
Awards Leibniz Prize (2015)
Scientific career
Fields Physics
Institutions Technical University Munich
Harvard University

Hendrik Dietz (born December 18, 1977, in Dresden Germany) is a German physicist known for his contributions in the field of DNA origami. He is a full-professor for biophysics at the Technical University of Munich.

Life

Dietz studied physics in Paderborn University, the University of Zaragoza, and at the LMU Munich. He completed his studies with a diploma in 2004. Subsequently, he became a research associate at the Technical University of Munich (TUM). In 2007, he earned his Dr. rer. nat. with research on the mechanical anisotropy of proteins in single-molecule experiments. [1] After that, he spent two years as a postdoc at Harvard University. Since the summer of 2009, he has been a Professor of Biophysics at the TU München.

Research

Dietz’s main research focus is on DNA nanotechnology. He uses DNA origami to design molecular machines that can execute user-defined tasks. Among these devices are force-sensing nano-structures, [2] gigadalton-sized DNA assemblies, [3] dynamically switching devices, [4] molecular motors, [5] [6] and virus traps. [7] [8]

In the long term, Dietz hopes to make a significant contribution to the creation of molecular machines and systems with practical benefits for everyday life. This includes uses in medicine such as vaccines or drug delivery vehicles and synthetic enzymes for biologically inspired chemistry.[ citation needed]

Awards

References

  1. ^ Dietz, Hendrik (2007). Mechanische Anisotropie von Proteinen in Einzelmolekülexperimenten (Thesis). Technische Universität München.
  2. ^ Funke, Jonas J.; Ketterer, Philip; Lieleg, Corinna; Schunter, Sarah; Korber, Philipp; Dietz, Hendrik (2016-11-04). "Uncovering the forces between nucleosomes using DNA origami". Science Advances. 2 (11): e1600974. Bibcode: 2016SciA....2E0974F. doi: 10.1126/sciadv.1600974. ISSN  2375-2548. PMC  5262459. PMID  28138524.
  3. ^ Wagenbauer, Klaus F.; Sigl, Christian; Dietz, Hendrik (2017-12-07). "Gigadalton-scale shape-programmable DNA assemblies". Nature. 552 (7683): 78–83. Bibcode: 2017Natur.552...78W. doi: 10.1038/nature24651. ISSN  1476-4687. PMID  29219966. S2CID  205262182.
  4. ^ Gerling, Thomas; Wagenbauer, Klaus F.; Neuner, Andrea M.; Dietz, Hendrik (2015-03-27). "Dynamic DNA devices and assemblies formed by shape-complementary, non–base pairing 3D components". Science. 347 (6229): 1446–1452. Bibcode: 2015Sci...347.1446G. doi: 10.1126/science.aaa5372. ISSN  0036-8075. PMID  25814577. S2CID  22642035.
  5. ^ Pumm, Anna-Katharina; Engelen, Wouter; Kopperger, Enzo; Isensee, Jonas; Vogt, Matthias; Kozina, Viktorija; Kube, Massimo; Honemann, Maximilian N.; Bertosin, Eva; Langecker, Martin; Golestanian, Ramin; Simmel, Friedrich C.; Dietz, Hendrik (2022-07-20). "A DNA origami rotary ratchet motor". Nature. 607 (7919): 492–498. Bibcode: 2022Natur.607..492P. doi: 10.1038/s41586-022-04910-y. ISSN  1476-4687. PMC  9300469. PMID  35859200.
  6. ^ Shi, Xin; Pumm, Anna-Katharina; Isensee, Jonas; Zhao, Wenxuan; Verschueren, Daniel; Martin-Gonzalez, Alejandro; Golestanian, Ramin; Dietz, Hendrik; Dekker, Cees (2022-08-04). "Sustained unidirectional rotation of a self-organized DNA rotor on a nanopore". Nature Physics. 18 (9): 1105–1111. arXiv: 2206.06613. Bibcode: 2022NatPh..18.1105S. doi: 10.1038/s41567-022-01683-z. ISSN  1745-2481. S2CID  256747052.
  7. ^ Sigl, Christian; Willner, Elena M.; Engelen, Wouter; Kretzmann, Jessica A.; Sachenbacher, Ken; Liedl, Anna; Kolbe, Fenna; Wilsch, Florian; Aghvami, S. Ali; Protzer, Ulrike; Hagan, Michael F.; Fraden, Seth; Dietz, Hendrik (2021-06-14). "Programmable icosahedral shell system for virus trapping". Nature Materials. 20 (9): 1281–1289. Bibcode: 2021NatMa..20.1281S. doi: 10.1038/s41563-021-01020-4. ISSN  1476-4660. PMC  7611604. PMID  34127822.
  8. ^ Monferrer, Alba; Kretzmann, Jessica A.; Sigl, Christian; Sapelza, Pia; Liedl, Anna; Wittmann, Barbara; Dietz, Hendrik (2022-12-27). "Broad-Spectrum Virus Trapping with Heparan Sulfate-Modified DNA Origami Shells". ACS Nano. 16 (12): 20002–20009. doi: 10.1021/acsnano.1c11328. ISSN  1936-0851. PMC  9798855. PMID  36323320.
  9. ^ "Biography Hendrik Dietz". Dietz Lab for Biomolecular Design (in German). Retrieved 2023-08-21.
Retrieved from " https://en.wikipedia.org/?title=Hendrik_Dietz&oldid=1216269881"
From Wikipedia, the free encyclopedia
Hendrik Dietz
Born(1977-12-18)18 December 1977
Dresden, Germany
NationalityGerman
Alma mater Technical University Munich
Ludwig Maximilian University of Munich
Paderborn University
Known for DNA Origami
Awards Leibniz Prize (2015)
Scientific career
Fields Physics
Institutions Technical University Munich
Harvard University

Hendrik Dietz (born December 18, 1977, in Dresden Germany) is a German physicist known for his contributions in the field of DNA origami. He is a full-professor for biophysics at the Technical University of Munich.

Life

Dietz studied physics in Paderborn University, the University of Zaragoza, and at the LMU Munich. He completed his studies with a diploma in 2004. Subsequently, he became a research associate at the Technical University of Munich (TUM). In 2007, he earned his Dr. rer. nat. with research on the mechanical anisotropy of proteins in single-molecule experiments. [1] After that, he spent two years as a postdoc at Harvard University. Since the summer of 2009, he has been a Professor of Biophysics at the TU München.

Research

Dietz’s main research focus is on DNA nanotechnology. He uses DNA origami to design molecular machines that can execute user-defined tasks. Among these devices are force-sensing nano-structures, [2] gigadalton-sized DNA assemblies, [3] dynamically switching devices, [4] molecular motors, [5] [6] and virus traps. [7] [8]

In the long term, Dietz hopes to make a significant contribution to the creation of molecular machines and systems with practical benefits for everyday life. This includes uses in medicine such as vaccines or drug delivery vehicles and synthetic enzymes for biologically inspired chemistry.[ citation needed]

Awards

References

  1. ^ Dietz, Hendrik (2007). Mechanische Anisotropie von Proteinen in Einzelmolekülexperimenten (Thesis). Technische Universität München.
  2. ^ Funke, Jonas J.; Ketterer, Philip; Lieleg, Corinna; Schunter, Sarah; Korber, Philipp; Dietz, Hendrik (2016-11-04). "Uncovering the forces between nucleosomes using DNA origami". Science Advances. 2 (11): e1600974. Bibcode: 2016SciA....2E0974F. doi: 10.1126/sciadv.1600974. ISSN  2375-2548. PMC  5262459. PMID  28138524.
  3. ^ Wagenbauer, Klaus F.; Sigl, Christian; Dietz, Hendrik (2017-12-07). "Gigadalton-scale shape-programmable DNA assemblies". Nature. 552 (7683): 78–83. Bibcode: 2017Natur.552...78W. doi: 10.1038/nature24651. ISSN  1476-4687. PMID  29219966. S2CID  205262182.
  4. ^ Gerling, Thomas; Wagenbauer, Klaus F.; Neuner, Andrea M.; Dietz, Hendrik (2015-03-27). "Dynamic DNA devices and assemblies formed by shape-complementary, non–base pairing 3D components". Science. 347 (6229): 1446–1452. Bibcode: 2015Sci...347.1446G. doi: 10.1126/science.aaa5372. ISSN  0036-8075. PMID  25814577. S2CID  22642035.
  5. ^ Pumm, Anna-Katharina; Engelen, Wouter; Kopperger, Enzo; Isensee, Jonas; Vogt, Matthias; Kozina, Viktorija; Kube, Massimo; Honemann, Maximilian N.; Bertosin, Eva; Langecker, Martin; Golestanian, Ramin; Simmel, Friedrich C.; Dietz, Hendrik (2022-07-20). "A DNA origami rotary ratchet motor". Nature. 607 (7919): 492–498. Bibcode: 2022Natur.607..492P. doi: 10.1038/s41586-022-04910-y. ISSN  1476-4687. PMC  9300469. PMID  35859200.
  6. ^ Shi, Xin; Pumm, Anna-Katharina; Isensee, Jonas; Zhao, Wenxuan; Verschueren, Daniel; Martin-Gonzalez, Alejandro; Golestanian, Ramin; Dietz, Hendrik; Dekker, Cees (2022-08-04). "Sustained unidirectional rotation of a self-organized DNA rotor on a nanopore". Nature Physics. 18 (9): 1105–1111. arXiv: 2206.06613. Bibcode: 2022NatPh..18.1105S. doi: 10.1038/s41567-022-01683-z. ISSN  1745-2481. S2CID  256747052.
  7. ^ Sigl, Christian; Willner, Elena M.; Engelen, Wouter; Kretzmann, Jessica A.; Sachenbacher, Ken; Liedl, Anna; Kolbe, Fenna; Wilsch, Florian; Aghvami, S. Ali; Protzer, Ulrike; Hagan, Michael F.; Fraden, Seth; Dietz, Hendrik (2021-06-14). "Programmable icosahedral shell system for virus trapping". Nature Materials. 20 (9): 1281–1289. Bibcode: 2021NatMa..20.1281S. doi: 10.1038/s41563-021-01020-4. ISSN  1476-4660. PMC  7611604. PMID  34127822.
  8. ^ Monferrer, Alba; Kretzmann, Jessica A.; Sigl, Christian; Sapelza, Pia; Liedl, Anna; Wittmann, Barbara; Dietz, Hendrik (2022-12-27). "Broad-Spectrum Virus Trapping with Heparan Sulfate-Modified DNA Origami Shells". ACS Nano. 16 (12): 20002–20009. doi: 10.1021/acsnano.1c11328. ISSN  1936-0851. PMC  9798855. PMID  36323320.
  9. ^ "Biography Hendrik Dietz". Dietz Lab for Biomolecular Design (in German). Retrieved 2023-08-21.
Retrieved from " https://en.wikipedia.org/?title=Hendrik_Dietz&oldid=1216269881"

Videos

Youtube | Vimeo | Bing

Websites

Google | Yahoo | Bing

Encyclopedia

Google | Yahoo | Bing

Facebook




Top Of Page

HomeSearchTranslate

© CSE