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Lucas Andrew Staehelin
Born(1939-02-10)February 10, 1939
Sydney, Australia
DiedSeptember 28, 2022(2022-09-28) (aged 83)
CitizenshipSwitzerland-America
Known forCell biology, photosynthesis, electron microscopy
TitleProfessor emeritus
Academic background
Alma mater Swiss Federal Institute of Technology
Academic work
Institutions University of Colorado Boulder

Lucas Andrew Staehelin (February 10, 1939 – September 28, 2022) was a retired Swiss-American cell biologist. [1] He was professor emeritus at the University of Colorado Boulder. [2]

He developed cryofixation methods and pioneered their use for preserving cellular structures for electron microscope studies. [3] [4] Application of these methods to the analysis of plant, animal and bacterial cells brought insights into the nanoscale architecture and functional organization of membranous organelles and cytoskeletal systems. [5] [6] [7] [8] Staehelin taught undergraduate and graduate courses in cellular and molecular biology at the University of Colorado Boulder.

Early life and education

Staehelin was born in Sydney, Australia on February 10, 1939.[ citation needed] In 1948 he moved to Switzerland where he attended the Gymnasium in Bern. He studied natural sciences as an undergraduate at the Swiss Federal Institute of Technology, Zürich from 1959 to 1963, where he earned his doctorate in plant cell biology in 1966, studying in the laboratory of Kurt Mühlethaler. [9] From 1966 to 1969 he worked as a scientist at the Physics and Engineering Laboratory of the Department of Scientific and Industrial Research in New Zealand. He was a postdoctoral fellow from 1969 to 1970 at Harvard University.[ citation needed] [10]

Career

Staehelin became an assistant professor in the Department of Molecular, Cellular and Developmental Biology, University of Colorado Boulder, in 1970, was promoted to associate professor in 1973, to full professor in 1978, and to professor emeritus in 2006. He held visiting professorships at Albert-Ludwigs University (1978), Swiss Federal Institute of Technology (1984, 1992), and University of Melbourne (1998).

He has authored and co-authored more than 300 scientific publications ( H-Index 78). [11] [12]

Research

Staehelin's research focused on using cryofixation methods to produce improved images of cellular structures by means of freeze-fracture, thin section and immunolabeling electron microscopy, and by electron tomography techniques. [4] His studies of photosynthetic membranes led to the characterization of differences in structure and function of grana and stroma thylakoid membranes, [13] of chlorosomes, [14] and the attachment of plastoglobules to thylakoids. [15] Vitrification of plant cells using propane-jet freezing led to the discovery that cellulose fibrils were synthesized by plasma membrane-associated rosette particle complexes, [16] and the demonstration that vesicle-mediated secretion and membrane recycling in turgid cells involves characteristic, transient membrane configurations. [17] High pressure freezing of intact plant tissues led to new models of plant cytokinesis, first as seen in thin section images [18] [19] [7] and then by electron tomography. These studies led to the discovery of the cell plate assembly matrix within which the assembly of the cell plate from vesicles occurs by previously unknown mechanisms. [20] [21] Electron tomography analysis enabled his group to produce nanoscale models of endoplasmic reticulum, Golgi apparatus and trans Golgi network membranes [22] [23] [24] [25] [4] The Golgi matrix/scaffold was shown to originate on COPII vesicles and to capture passing Golgi to mediate ER-Golgi vesicle transfer as postulated by the stop-pluck-and-go hypothesis of Golgi trafficking. [26]

Awards

References

  1. ^ "L. Andrew Staehelin, CU Boulder molecular biologist, dies at 83". Colorado Arts and Sciences Magazine. 5 October 2022. Retrieved 14 May 2023.
  2. ^ "Andrew Staehelin". Molecular, Cellular & Developmental Biology. 22 September 2016. Retrieved 23 March 2022.
  3. ^ Gilkey, John C.; Staehelin, L. Andrew (1986). "Advances in ultrarapid freezing for the preservation of cellular ultrastructure". Journal of Electron Microscopy Technique. 3 (2): 177–210. doi: 10.1002/jemt.1060030206. ISSN  1553-0817.
  4. ^ a b c Cheung, Alice Y; Cosgrove, Daniel J; Hara-Nishimura, Ikuko; Jürgens, Gerd; Lloyd, Clive; Robinson, David G; Staehelin, L Andrew; Weijers, Dolf (15 September 2021). "A rich and bountiful harvest: key discoveries in plant cell biology". The Plant Cell. 34: 53–71. doi: 10.1093/plcell/koab234. ISSN  1040-4651. PMC  8773953. PMID  34524464.
  5. ^ Nevo, Reinat; Charuvi, Dana; Tsabari, Onie; Reich, Ziv (April 2012). "Composition, architecture and dynamics of the photosynthetic apparatus in higher plants: The photosynthetic apparatus in higher plants". The Plant Journal. 70 (1): 157–176. doi: 10.1111/j.1365-313X.2011.04876.x. PMID  22449050.
  6. ^ Kirchhoff, Helmut (8 March 2019). "Chloroplast ultrastructure in plants". New Phytologist. 223 (2): 565–574. doi: 10.1111/nph.15730. ISSN  0028-646X. PMID  30721547. S2CID  206221619.
  7. ^ a b Jürgens, Gerd; Park, Misoon; Richter, Sandra; Touihri, Sonja; Krause, Cornelia; El Kasmi, Farid; Mayer, Ulrike (26 January 2015). "Plant cytokinesis: a tale of membrane traffic and fusion". Biochemical Society Transactions. 43 (1): 73–78. doi: 10.1042/BST20140246. ISSN  0300-5127. PMID  25619248.
  8. ^ Ogbu, Chinemerem P.; Roy, Sourav; Vecchio, Alex J. (January 2022). "Disruption of Claudin-Made Tight Junction Barriers by Clostridium perfringens Enterotoxin: Insights from Structural Biology". Cells. 11 (5): 903. doi: 10.3390/cells11050903. ISSN  2073-4409. PMC  8909277. PMID  35269525.
  9. ^ "Chemistry Tree - L. Andrew Staehelin".
  10. ^ "L. Andrew Staehelin". ResearchGate. Retrieved 22 March 2022.
  11. ^ "L. Andrew Staehelin, University of Colorado Boulder, Department of Molecular, Cellular, and Developmental Biology". ResearchGate. Retrieved 17 December 2021.
  12. ^ "Web of Science". www.webofscience.com. Retrieved 26 January 2022.
  13. ^ Staehelin, L. Andrew (1 April 2003). "Chloroplast structure: from chlorophyll granules to supra-molecular architecture of thylakoid membranes". Photosynthesis Research. 76 (1): 185–96. doi: 10.1023/A:1024994525586. ISSN  1573-5079. PMID  16228577. S2CID  5022848.
  14. ^ Staehelin, L. Andrew; Golecki, Jochen R.; Drews, Gerhart (1 April 1980). "Supramolecular organization of chlorosomes (chlorobium vesicles) and of their membrane attachment sites in Chlorobium Limicola". Biochimica et Biophysica Acta (BBA) - Bioenergetics. 589 (1): 30–45. doi: 10.1016/0005-2728(80)90130-9. ISSN  0005-2728. PMID  7356977.
  15. ^ Rottet, Sarah; Besagni, Céline; Kessler, Felix (1 September 2015). "The role of plastoglobules in thylakoid lipid remodeling during plant development". Biochimica et Biophysica Acta (BBA) - Bioenergetics. SI: Chloroplast Biogenesis. 1847 (9): 889–99. doi: 10.1016/j.bbabio.2015.02.002. ISSN  0005-2728. PMID  25667966.
  16. ^ Giddings, T H Jr; Brower, D L; Staehelin, L A (1 February 1980). "Visualization of particle complexes in the plasma membrane of Micrasterias denticulata associated with the formation of cellulose fibrils in primary and secondary cell walls". Journal of Cell Biology. 84 (2): 327–339. doi: 10.1083/jcb.84.2.327. ISSN  0021-9525. PMC  2110545. PMID  7189756.
  17. ^ Staehelin, L. A.; Chapman, R. L. (1 May 1987). "Secretion and membrane recycling in plant cells: novel intermediary structures visualized in ultrarapidly frozen sycamore and carrot suspension-culture cells". Planta. 171 (1): 43–57. Bibcode: 1987Plant.171...43S. doi: 10.1007/BF00395066. ISSN  1432-2048. PMID  24227269. S2CID  29633957.
  18. ^ Samuels, A L; Giddings, T H Jr; Staehelin, L A (15 September 1995). "Cytokinesis in tobacco BY-2 and root tip cells: a new model of cell plate formation in higher plants". Journal of Cell Biology. 130 (6): 1345–1357. doi: 10.1083/jcb.130.6.1345. ISSN  0021-9525. PMC  2120572. PMID  7559757.
  19. ^ Otegui, Marisa; Staehelin, L. Andrew (1 June 2000). "Syncytial-Type Cell Plates: A Novel Kind of Cell Plate Involved in Endosperm Cellularization of Arabidopsis". The Plant Cell. 12 (6): 933–947. doi: 10.1105/tpc.12.6.933. ISSN  1040-4651. PMC  149094. PMID  10852938.
  20. ^ Otegui, M. S.; Mastronarde, D. N.; Kang, B. H.; Bednarek, S. Y.; Staehelin, L. A. (September 2001). "Three-dimensional analysis of syncytial-type cell plates during endosperm cellularization visualized by high resolution electron tomography". The Plant Cell. 13 (9): 2033–2051. doi: 10.1105/tpc.13.9.2033. ISSN  1040-4651. JSTOR  3871426. PMC  139450. PMID  11549762.
  21. ^ Otegui, Marisa S. (2011), Popper, Zoë A. (ed.), "Electron Tomography and Immunogold Labelling as Tools to Analyse de Novo Assembly of Plant Cell Walls", The Plant Cell Wall: Methods and Protocols, Methods in Molecular Biology, vol. 715, Totowa, NJ: Humana Press, pp. 123–140, doi: 10.1007/978-1-61779-008-9_9, ISBN  978-1-61779-008-9, PMID  21222081
  22. ^ ROBINSON, DAVID G. (27 May 2020). "Plant Golgi ultrastructure". Journal of Microscopy. 280 (2): 111–121. doi: 10.1111/jmi.12899. ISSN  0022-2720. PMID  32420623. S2CID  218680885.
  23. ^ Staehelin, L. Andrew; Kang, Byung-Ho (1 August 2008). "Nanoscale Architecture of Endoplasmic Reticulum Export Sites and of Golgi Membranes as Determined by Electron Tomography". Plant Physiology. 147 (4): 1454–1468. doi: 10.1104/pp.108.120618. ISSN  0032-0889. PMC  2492626. PMID  18678738.
  24. ^ Kang, Byung-Ho; Nielsen, Erik; Preuss, Mary Lai; Mastronarde, David; Staehelin, L. Andrew (2011). "Electron Tomography of RabA4b- and PI-4Kβ1-Labeled Trans Golgi Network Compartments in Arabidopsis". Traffic. 12 (3): 313–329. doi: 10.1111/j.1600-0854.2010.01146.x. ISSN  1600-0854. PMID  21134079. S2CID  13965499.
  25. ^ Donohoe, Bryon S.; Kang, Byung-Ho; Gerl, Mathias J.; Gergely, Zachary R.; McMichael, Colleen M.; Bednarek, Sebastian Y.; Staehelin, L. Andrew (2013). "Cis-Golgi Cisternal Assembly and Biosynthetic Activation Occur Sequentially in Plants and Algae". Traffic. 14 (5): 551–567. doi: 10.1111/tra.12052. ISSN  1600-0854. PMC  3622843. PMID  23369235.
  26. ^ Nebenführ, Andreas; Gallagher, Larry A.; Dunahay, Terri G.; Frohlick, Jennifer A.; Mazurkiewicz, Anna M.; Meehl, Janet B.; Staehelin, L. Andrew (1 December 1999). "Stop-and-Go Movements of Plant Golgi Stacks Are Mediated by the Acto-Myosin System1". Plant Physiology. 121 (4): 1127–1141. doi: 10.1104/pp.121.4.1127. ISSN  0032-0889. PMC  59480. PMID  10594100.
  27. ^ "Singleview - Alexander von Humboldt-Stiftung".
  28. ^ "List of Members".
  29. ^ "Historic Fellows". American Association for the Advancement of Science. Retrieved 17 December 2021.
  30. ^ a b "CU-Boulder's Andrew Staehelin Named First Ever Fellow Of American Society Of Plant Biologists". CU Boulder Today. 25 July 2007. Retrieved 17 December 2021.
Retrieved from " https://en.wikipedia.org/?title=Lucas_Andrew_Staehelin&oldid=1213828426"
From Wikipedia, the free encyclopedia

Lucas Andrew Staehelin
Born(1939-02-10)February 10, 1939
Sydney, Australia
DiedSeptember 28, 2022(2022-09-28) (aged 83)
CitizenshipSwitzerland-America
Known forCell biology, photosynthesis, electron microscopy
TitleProfessor emeritus
Academic background
Alma mater Swiss Federal Institute of Technology
Academic work
Institutions University of Colorado Boulder

Lucas Andrew Staehelin (February 10, 1939 – September 28, 2022) was a retired Swiss-American cell biologist. [1] He was professor emeritus at the University of Colorado Boulder. [2]

He developed cryofixation methods and pioneered their use for preserving cellular structures for electron microscope studies. [3] [4] Application of these methods to the analysis of plant, animal and bacterial cells brought insights into the nanoscale architecture and functional organization of membranous organelles and cytoskeletal systems. [5] [6] [7] [8] Staehelin taught undergraduate and graduate courses in cellular and molecular biology at the University of Colorado Boulder.

Early life and education

Staehelin was born in Sydney, Australia on February 10, 1939.[ citation needed] In 1948 he moved to Switzerland where he attended the Gymnasium in Bern. He studied natural sciences as an undergraduate at the Swiss Federal Institute of Technology, Zürich from 1959 to 1963, where he earned his doctorate in plant cell biology in 1966, studying in the laboratory of Kurt Mühlethaler. [9] From 1966 to 1969 he worked as a scientist at the Physics and Engineering Laboratory of the Department of Scientific and Industrial Research in New Zealand. He was a postdoctoral fellow from 1969 to 1970 at Harvard University.[ citation needed] [10]

Career

Staehelin became an assistant professor in the Department of Molecular, Cellular and Developmental Biology, University of Colorado Boulder, in 1970, was promoted to associate professor in 1973, to full professor in 1978, and to professor emeritus in 2006. He held visiting professorships at Albert-Ludwigs University (1978), Swiss Federal Institute of Technology (1984, 1992), and University of Melbourne (1998).

He has authored and co-authored more than 300 scientific publications ( H-Index 78). [11] [12]

Research

Staehelin's research focused on using cryofixation methods to produce improved images of cellular structures by means of freeze-fracture, thin section and immunolabeling electron microscopy, and by electron tomography techniques. [4] His studies of photosynthetic membranes led to the characterization of differences in structure and function of grana and stroma thylakoid membranes, [13] of chlorosomes, [14] and the attachment of plastoglobules to thylakoids. [15] Vitrification of plant cells using propane-jet freezing led to the discovery that cellulose fibrils were synthesized by plasma membrane-associated rosette particle complexes, [16] and the demonstration that vesicle-mediated secretion and membrane recycling in turgid cells involves characteristic, transient membrane configurations. [17] High pressure freezing of intact plant tissues led to new models of plant cytokinesis, first as seen in thin section images [18] [19] [7] and then by electron tomography. These studies led to the discovery of the cell plate assembly matrix within which the assembly of the cell plate from vesicles occurs by previously unknown mechanisms. [20] [21] Electron tomography analysis enabled his group to produce nanoscale models of endoplasmic reticulum, Golgi apparatus and trans Golgi network membranes [22] [23] [24] [25] [4] The Golgi matrix/scaffold was shown to originate on COPII vesicles and to capture passing Golgi to mediate ER-Golgi vesicle transfer as postulated by the stop-pluck-and-go hypothesis of Golgi trafficking. [26]

Awards

References

  1. ^ "L. Andrew Staehelin, CU Boulder molecular biologist, dies at 83". Colorado Arts and Sciences Magazine. 5 October 2022. Retrieved 14 May 2023.
  2. ^ "Andrew Staehelin". Molecular, Cellular & Developmental Biology. 22 September 2016. Retrieved 23 March 2022.
  3. ^ Gilkey, John C.; Staehelin, L. Andrew (1986). "Advances in ultrarapid freezing for the preservation of cellular ultrastructure". Journal of Electron Microscopy Technique. 3 (2): 177–210. doi: 10.1002/jemt.1060030206. ISSN  1553-0817.
  4. ^ a b c Cheung, Alice Y; Cosgrove, Daniel J; Hara-Nishimura, Ikuko; Jürgens, Gerd; Lloyd, Clive; Robinson, David G; Staehelin, L Andrew; Weijers, Dolf (15 September 2021). "A rich and bountiful harvest: key discoveries in plant cell biology". The Plant Cell. 34: 53–71. doi: 10.1093/plcell/koab234. ISSN  1040-4651. PMC  8773953. PMID  34524464.
  5. ^ Nevo, Reinat; Charuvi, Dana; Tsabari, Onie; Reich, Ziv (April 2012). "Composition, architecture and dynamics of the photosynthetic apparatus in higher plants: The photosynthetic apparatus in higher plants". The Plant Journal. 70 (1): 157–176. doi: 10.1111/j.1365-313X.2011.04876.x. PMID  22449050.
  6. ^ Kirchhoff, Helmut (8 March 2019). "Chloroplast ultrastructure in plants". New Phytologist. 223 (2): 565–574. doi: 10.1111/nph.15730. ISSN  0028-646X. PMID  30721547. S2CID  206221619.
  7. ^ a b Jürgens, Gerd; Park, Misoon; Richter, Sandra; Touihri, Sonja; Krause, Cornelia; El Kasmi, Farid; Mayer, Ulrike (26 January 2015). "Plant cytokinesis: a tale of membrane traffic and fusion". Biochemical Society Transactions. 43 (1): 73–78. doi: 10.1042/BST20140246. ISSN  0300-5127. PMID  25619248.
  8. ^ Ogbu, Chinemerem P.; Roy, Sourav; Vecchio, Alex J. (January 2022). "Disruption of Claudin-Made Tight Junction Barriers by Clostridium perfringens Enterotoxin: Insights from Structural Biology". Cells. 11 (5): 903. doi: 10.3390/cells11050903. ISSN  2073-4409. PMC  8909277. PMID  35269525.
  9. ^ "Chemistry Tree - L. Andrew Staehelin".
  10. ^ "L. Andrew Staehelin". ResearchGate. Retrieved 22 March 2022.
  11. ^ "L. Andrew Staehelin, University of Colorado Boulder, Department of Molecular, Cellular, and Developmental Biology". ResearchGate. Retrieved 17 December 2021.
  12. ^ "Web of Science". www.webofscience.com. Retrieved 26 January 2022.
  13. ^ Staehelin, L. Andrew (1 April 2003). "Chloroplast structure: from chlorophyll granules to supra-molecular architecture of thylakoid membranes". Photosynthesis Research. 76 (1): 185–96. doi: 10.1023/A:1024994525586. ISSN  1573-5079. PMID  16228577. S2CID  5022848.
  14. ^ Staehelin, L. Andrew; Golecki, Jochen R.; Drews, Gerhart (1 April 1980). "Supramolecular organization of chlorosomes (chlorobium vesicles) and of their membrane attachment sites in Chlorobium Limicola". Biochimica et Biophysica Acta (BBA) - Bioenergetics. 589 (1): 30–45. doi: 10.1016/0005-2728(80)90130-9. ISSN  0005-2728. PMID  7356977.
  15. ^ Rottet, Sarah; Besagni, Céline; Kessler, Felix (1 September 2015). "The role of plastoglobules in thylakoid lipid remodeling during plant development". Biochimica et Biophysica Acta (BBA) - Bioenergetics. SI: Chloroplast Biogenesis. 1847 (9): 889–99. doi: 10.1016/j.bbabio.2015.02.002. ISSN  0005-2728. PMID  25667966.
  16. ^ Giddings, T H Jr; Brower, D L; Staehelin, L A (1 February 1980). "Visualization of particle complexes in the plasma membrane of Micrasterias denticulata associated with the formation of cellulose fibrils in primary and secondary cell walls". Journal of Cell Biology. 84 (2): 327–339. doi: 10.1083/jcb.84.2.327. ISSN  0021-9525. PMC  2110545. PMID  7189756.
  17. ^ Staehelin, L. A.; Chapman, R. L. (1 May 1987). "Secretion and membrane recycling in plant cells: novel intermediary structures visualized in ultrarapidly frozen sycamore and carrot suspension-culture cells". Planta. 171 (1): 43–57. Bibcode: 1987Plant.171...43S. doi: 10.1007/BF00395066. ISSN  1432-2048. PMID  24227269. S2CID  29633957.
  18. ^ Samuels, A L; Giddings, T H Jr; Staehelin, L A (15 September 1995). "Cytokinesis in tobacco BY-2 and root tip cells: a new model of cell plate formation in higher plants". Journal of Cell Biology. 130 (6): 1345–1357. doi: 10.1083/jcb.130.6.1345. ISSN  0021-9525. PMC  2120572. PMID  7559757.
  19. ^ Otegui, Marisa; Staehelin, L. Andrew (1 June 2000). "Syncytial-Type Cell Plates: A Novel Kind of Cell Plate Involved in Endosperm Cellularization of Arabidopsis". The Plant Cell. 12 (6): 933–947. doi: 10.1105/tpc.12.6.933. ISSN  1040-4651. PMC  149094. PMID  10852938.
  20. ^ Otegui, M. S.; Mastronarde, D. N.; Kang, B. H.; Bednarek, S. Y.; Staehelin, L. A. (September 2001). "Three-dimensional analysis of syncytial-type cell plates during endosperm cellularization visualized by high resolution electron tomography". The Plant Cell. 13 (9): 2033–2051. doi: 10.1105/tpc.13.9.2033. ISSN  1040-4651. JSTOR  3871426. PMC  139450. PMID  11549762.
  21. ^ Otegui, Marisa S. (2011), Popper, Zoë A. (ed.), "Electron Tomography and Immunogold Labelling as Tools to Analyse de Novo Assembly of Plant Cell Walls", The Plant Cell Wall: Methods and Protocols, Methods in Molecular Biology, vol. 715, Totowa, NJ: Humana Press, pp. 123–140, doi: 10.1007/978-1-61779-008-9_9, ISBN  978-1-61779-008-9, PMID  21222081
  22. ^ ROBINSON, DAVID G. (27 May 2020). "Plant Golgi ultrastructure". Journal of Microscopy. 280 (2): 111–121. doi: 10.1111/jmi.12899. ISSN  0022-2720. PMID  32420623. S2CID  218680885.
  23. ^ Staehelin, L. Andrew; Kang, Byung-Ho (1 August 2008). "Nanoscale Architecture of Endoplasmic Reticulum Export Sites and of Golgi Membranes as Determined by Electron Tomography". Plant Physiology. 147 (4): 1454–1468. doi: 10.1104/pp.108.120618. ISSN  0032-0889. PMC  2492626. PMID  18678738.
  24. ^ Kang, Byung-Ho; Nielsen, Erik; Preuss, Mary Lai; Mastronarde, David; Staehelin, L. Andrew (2011). "Electron Tomography of RabA4b- and PI-4Kβ1-Labeled Trans Golgi Network Compartments in Arabidopsis". Traffic. 12 (3): 313–329. doi: 10.1111/j.1600-0854.2010.01146.x. ISSN  1600-0854. PMID  21134079. S2CID  13965499.
  25. ^ Donohoe, Bryon S.; Kang, Byung-Ho; Gerl, Mathias J.; Gergely, Zachary R.; McMichael, Colleen M.; Bednarek, Sebastian Y.; Staehelin, L. Andrew (2013). "Cis-Golgi Cisternal Assembly and Biosynthetic Activation Occur Sequentially in Plants and Algae". Traffic. 14 (5): 551–567. doi: 10.1111/tra.12052. ISSN  1600-0854. PMC  3622843. PMID  23369235.
  26. ^ Nebenführ, Andreas; Gallagher, Larry A.; Dunahay, Terri G.; Frohlick, Jennifer A.; Mazurkiewicz, Anna M.; Meehl, Janet B.; Staehelin, L. Andrew (1 December 1999). "Stop-and-Go Movements of Plant Golgi Stacks Are Mediated by the Acto-Myosin System1". Plant Physiology. 121 (4): 1127–1141. doi: 10.1104/pp.121.4.1127. ISSN  0032-0889. PMC  59480. PMID  10594100.
  27. ^ "Singleview - Alexander von Humboldt-Stiftung".
  28. ^ "List of Members".
  29. ^ "Historic Fellows". American Association for the Advancement of Science. Retrieved 17 December 2021.
  30. ^ a b "CU-Boulder's Andrew Staehelin Named First Ever Fellow Of American Society Of Plant Biologists". CU Boulder Today. 25 July 2007. Retrieved 17 December 2021.
Retrieved from " https://en.wikipedia.org/?title=Lucas_Andrew_Staehelin&oldid=1213828426"

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