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Lidia Mannuzzu

From Wikipedia, the free encyclopedia

Lidia Mannuzzu
Born(1958-04-21)21 April 1958
Sassari, Sardinia
Died24 October 2016(2016-10-24) (aged 58)
Sassari, Sardinia
NationalityItalian
Alma materUniversity of Sassari
University of California, Berkeley
Scientific career
FieldsBiology
InstitutionsUniversity of Turin, University of California, Berkeley, Nano Med Technology, University of Sassari
Theses
  • Spin label studies of urea transport  (1989)
  • Characterization of the urea transport system in human erythrocytes  (1994)

Lidia Mannuzzu (21 April 1958 – 24 October 2016) was an Italian biologist, physiologist and academic.

Biography

Early years

Lidia M. Mannuzzu was born in Sassari, Sardinia, Italy. She was the daughter of the writer Salvatore Mannuzzu; and she had a sister, Mary. Mannuzzu graduated with honors in Medicine from University of Sassari in 1984, with a thesis on favism. She continued her studies at the Max Planck Institute, at Brunel University in London, and Aachen Medical School in Westphalia.

Immediately after graduation and until 1986, she worked as a researcher in the Department of Biochemistry and Genetics, University of Turin, participating in research on cell membrane of platelets and blood cells that have a fundamental role in hemostasis.

University of California, Berkeley

In 1987, she left Italy to pursue a master's degree in physiology at University of California, Berkeley, receiving her Ph.D. in 1990. During the 1990s, with her colleagues Mario Morrone and Ehud Isacoff, she studied the voltage-gated ion channel in cells.[1] The three researchers developed a new technique to monitor the movement of different amino acids in the ion channel proteins of cell membranes by tagging them with fluorophores. The change of the fluorescence of the amino acid probes after electrical stimulation (and related responses by the involved membrane proteins) provided the first real-time measure of protein motion in the channel’s voltage sensor.[2]

She developed and patented biomedical technologies targeted to the red blood cells processes, and of nervous system cell function. In 2000, as a researcher, she became a professor at Berkeley, continuing to study the workings of synapses. In 2005, she left Berkeley to found Nano Med Technology, a company that studied the use of new drugs for diseases associated with dysfunction of cellular membranes.

Many of her studies were published in journals such as PNAS (the official publication of the National Academy of Sciences in the United States),[3] Nature,[4] and Science.[5]

Return to Italy

Mannuzzu returned to Italy in 2006, with the support of a Ministry of scientific research program for the return of Italian emigrants from abroad. She continued her research work in the Department of Biomedical Sciences at the University of Sassari, where she studied the relationship between the diseases of red blood cells and thalassemia.

She died on 24 October 2016, from a pulmonary embolism.[6]

Patent

  • Patent n. 5,756,351, 13 January 1997. Biomolecular optical sensors.

Selected works

  • Conformational switch between slow and fast gating modes: allosteric regulation of voltage sensor mobility in the EAG K+ channel. Roland Schönherr, Lidia M Mannuzzu, Ehud Y Isacoff, Stefan H Heinemann. Neuron 35:935-49 2002-10-09[7]
  • Structural rearrangements in single ion channels detected optically in living cells. AloisSonnleitner, Lidia M Mannuzzu, Susumu Terakawa, Ehud Y Isacoff. Proceedings of the National Academy of Sciences of the United States of America 99:12759-64 2002-09-12[8]
  • Independence and Cooperativity in Rearrangements of a Potassium Channel Voltage Sensor Revealed by Single Subunit Fluorescence[9]
  • Increased Red Cell Calcium, Decreased Calcium Adenosine Triphosphatase, and Altered Membrane Proteins During Fava Bean Hemolysis in Glucose-6-Phosphate Dehydrogenase-Deficient (Mediterranean Variant) Individuals, By Franco Turrini, Anna Naitana, Lidia Mannuzzu, Gianpiero Pescarmona, and Paolo Arese[10]
  • Estimate of the number of urea transport sites in erythrocyte ghosts using a hydrophobic mercurial[11]

References

  1. ^ Russell, Peter J., ed. (2008). Biology: The Dynamic Science, Volume 1. Cengage Learning. p. 127. ISBN 9781111795559.
  2. ^ Brownlee, Christen (2006). "Gateways to Collaboration". ACS Chemical Biology. 1 (1): 10–13. doi:10.1021/cb0600048. PMID 17163632.
  3. ^ Sonnleitner, Alois; Mannuzzu, Lidia M.; Terakawa, Susumu; Isacoff, Ehud Y. (1 October 2002). "Structural rearrangements in single ion channels detected optically in living cells". Proceedings of the National Academy of Sciences of the United States of America. 99 (20): 12759–12764. Bibcode:2002PNAS...9912759S. doi:10.1073/pnas.192261499. ISSN 0027-8424. PMC 130533. PMID 12228726.
  4. ^ Glauner, K. S.; Mannuzzu, L. M.; Gandhi, C. S.; Isacoff, E. Y. (16 December 1999). "Spectroscopic mapping of voltage sensor movement in the Shaker potassium channel". Nature. 402 (6763): 813–817. Bibcode:1999Natur.402..813G. doi:10.1038/45561. ISSN 0028-0836. PMID 10617202. S2CID 4417476.
  5. ^ Mannuzzu, Lidia M.; Moronne, Mario M.; Isacoff, Ehud Y. (12 January 1996). "Direct Physical Measure of Conformational Rearrangement Underlying Potassium Channel Gating" (PDF). Science. 271 (5246): 213–216. Bibcode:1996Sci...271..213M. doi:10.1126/science.271.5246.213. ISSN 0036-8075. PMID 8539623. S2CID 24392100.
  6. ^ "MANNUZZU LIDIA". Necrologie. Retrieved 2 November 2016.
  7. ^ Cell.com, Neuron, Volume 35, Issue 5, p935–949, 29 August 2002
  8. ^ Pubmed 12228726
  9. ^ Mannuzzu, LM; Isacoff, EY (2000). "Independence and cooperativity in rearrangements of a potassium channel voltage sensor revealed by single subunit fluorescence". J Gen Physiol. 115 (3): 257–68. doi:10.1085/jgp.115.3.257. PMC 2217208. PMID 10694254.
  10. ^ Blood journal
  11. ^ The Journal of Membrane Biology, April 1993, Volume 133, Issue 1, pp 85–97
This page was last edited on 16 March 2023, at 20:20
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