Draft:Carolyn Napoli

Submission declined on 3 August 2024 by Greenman (talk).

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Declined by Greenman 3 days ago. Last edited by Eastmarin 28 hours ago. Reviewer: Inform author.

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Submission declined on 20 May 2024 by Ratnahastin (talk).
Declined by Ratnahastin 2 months ago.

Comment: See WP:BLP. Statements, starting with the date of birth, need to be sourced or removed. The entire early life section, for example, is unsourced.
External links should also be removed or converted to inline citations where appropriate. Greenman (talk) 12:34, 3 August 2024 (UTC)

Comment: See WP:MOS. Ratnahastin (talk) 05:08, 20 May 2024 (UTC)

Carolyn Napoli co-discovered the mechanism of co-suppression.^[1], gene silencing which, like transposon silencing, was first discovered in plants.

Research and career

At the University of Florida, in the Soil Sciences Department laboratory of David H. Hubbell, Napoli demonstrated for the first time using electron microscopy, the development of infection by the soil bacterium, Rhizobium trifolii, in Trifolium (clover) root hairs^[2].

Napoli continued her Rhizobium research in the laboratory of Peter Albersheim^[3] at the University of Colorado Boulder and later the lab of Larry Gold in the Department of Molecular, Cellular and Developmental Biology.^[4] before leaving for the laboratory of Brian Staskawicz^[5] at University of California, Berkeley to work on plant avirulence genes^[6].

Transitioning from academia to industry, Napoli joined collaborator Richard A. Jorgensen at the Oakland-based agricultural biotechnology company Advanced Genetic Sciences, Inc. (AGS) which was acquired later by DNA Plant Technology Corporation. At AGS, Napoli and Jorgensen established a program to genetically engineer floriculture crops. With a goal of increasing flower pigmentation by overexpressing the gene encoding the Chalcone Synthase (CHS) they used a vector for high-level translation designed by their AGS colleague Jonathan Jones. The antisense CHS construct they deployed in Petunia plants created novel flower color distribution. One of these patterns, dubbed “Cossack Dancer,”^[7] was featured in The Plant Cell 30-year retrospective, "Refections on Plant Cell Classics,". These observations documented by Napoli and Jorgensen are examples of “co-suppression,”^[1] – a post transcriptional gene silencing mechanism predating the discovery of RNA interference (RNAi).

From DNAP, Napoli accepted a faculty position in the Department of Environmental Horticulture at the University of California, Davis (UCD) where she deployed a strategy of ethyl methanesulfonate (EMS) to produce mutations in both Petunia and Arabidopsis seeds. By screening over 1,200 mutants she identified a bushy phenotype that she termed "decreased apical dominance" or "dad" mutants and subsequently published her analysis of the reversal of this phenomenon by grafting in the journal Plant Physiology^[8]. In collaboration with Loverine Taylor, Napoli identified a phenotype that was used as a selectable marker for plant breeding research^[9].

Following UCD, Napoli joined the Department of Plant Sciences at the University of Arizona (UA) where she focused on designing and distributing resources to the Arabidopsis and maize research communities under the auspices of an National Science Foundation Plant Genome Research Program grant led by Jorgensen and Vicki Chandler. At UA, Napoli launched the NSF-funded ChromDB (Chromatin Database)^[10], a platform for displaying chromatin-associated proteins, including RNAi-associated proteins, for a range of organisms.

Awards and honors

In 2023 Napoli was recognized as a Pioneer Member of the American Society of Plant Biologists.

References

^ ^a ^b Napoli, C.; Lemieux, C.; Jorgensen, R. (1990-04-01). "Introduction of a Chimeric Chalcone Synthase Gene into Petunia Results in Reversible Co-Suppression of Homologous Genes in trans". The Plant Cell. 2 (4): 279–289. doi:10.1105/tpc.2.4.279. ISSN 1040-4651. PMC 159885. PMID 12354959.
^ Napoli, C A; Hubbell, D H (1975). "Ultrastructure of Rhizobium-induced infection threads in clover root hairs". Applied Microbiology. 30 (6): 1003–1009. doi:10.1128/am.30.6.1003-1009.1975. ISSN 0003-6919. PMC 376582. PMID 1211931.
^ "Peter Albersheim". Glycobiology. 28 (10): 714–718. 2018-10-01. doi:10.1093/glycob/cwy066. ISSN 1460-2423.
^ "Larry Gold". Molecular, Cellular & Developmental Biology. 2016-09-22. Retrieved 2024-05-18.
^ "Staskawicz Lab". Staskawicz Lab. Retrieved 2024-05-18.
^ Bonas, Ulla (1998-01-01), Williams, Peter; Ketley, Julian; Salmond, George (eds.), "5.4 Avirulence Genes", Methods in Microbiology, Bacterial Pathogenesis, vol. 27, Academic Press, pp. 149–155, doi:10.1016/s0580-9517(08)70278-2, ISBN 978-0-12-521525-1, retrieved 2024-05-18
^ Scheid, Ortrun Mittelsten (12 June 2019). "Illuminating (White and) Purple Patches". The Plant Cell. 31 (6): 1208–1209. doi:10.1105/tpc.19.00308. ISSN 1040-4651. PMC 6588294. PMID 31036597.
^ Napoli, Carolyn (1996). "Highly Branched Phenotype of the Petunia dadl-7 Mutant 1s Reversed by Grafting". academic.oup.com. Retrieved 2024-05-18.
^ Napoli, Carolyn A.; Fahy, Deirdre; Wang, Huai-Yu; Taylor, Loverine P. (1999-06-01). "white anther : A Petunia Mutant That Abolishes Pollen Flavonol Accumulation, Induces Male Sterility, and Is Complemented by a Chalcone Synthase Transgene1". Plant Physiology. 120 (2): 615–622. doi:10.1104/pp.120.2.615. ISSN 1532-2548. PMC 59301. PMID 10364414.
^ Gendler, Karla; Paulsen, Tara; Napoli, Carolyn (2008-01-01). "ChromDB: The Chromatin Database". Nucleic Acids Research. 36 (suppl_1): D298–D302. doi:10.1093/nar/gkm768. ISSN 0305-1048. PMC 2238968. PMID 17942414.

[:0-1] Napoli, C.; Lemieux, C.; Jorgensen, R. (1990-04-01). "Introduction of a Chimeric Chalcone Synthase Gene into Petunia Results in Reversible Co-Suppression of Homologous Genes in trans". The Plant Cell. 2 (4): 279–289. doi:10.1105/tpc.2.4.279. ISSN 1040-4651. PMC 159885. PMID 12354959.

[2] Napoli, C A; Hubbell, D H (1975). "Ultrastructure of Rhizobium-induced infection threads in clover root hairs". Applied Microbiology. 30 (6): 1003–1009. doi:10.1128/am.30.6.1003-1009.1975. ISSN 0003-6919. PMC 376582. PMID 1211931.

[3] "Peter Albersheim". Glycobiology. 28 (10): 714–718. 2018-10-01. doi:10.1093/glycob/cwy066. ISSN 1460-2423.

[4] "Larry Gold". Molecular, Cellular & Developmental Biology. 2016-09-22. Retrieved 2024-05-18.

[5] "Staskawicz Lab". Staskawicz Lab. Retrieved 2024-05-18.

[6] Bonas, Ulla (1998-01-01), Williams, Peter; Ketley, Julian; Salmond, George (eds.), "5.4 Avirulence Genes", Methods in Microbiology, Bacterial Pathogenesis, vol. 27, Academic Press, pp. 149–155, doi:10.1016/s0580-9517(08)70278-2, ISBN 978-0-12-521525-1, retrieved 2024-05-18

[7] Scheid, Ortrun Mittelsten (12 June 2019). "Illuminating (White and) Purple Patches". The Plant Cell. 31 (6): 1208–1209. doi:10.1105/tpc.19.00308. ISSN 1040-4651. PMC 6588294. PMID 31036597.

[8] Napoli, Carolyn (1996). "Highly Branched Phenotype of the Petunia dadl-7 Mutant 1s Reversed by Grafting". academic.oup.com. Retrieved 2024-05-18.

[9] Napoli, Carolyn A.; Fahy, Deirdre; Wang, Huai-Yu; Taylor, Loverine P. (1999-06-01). "white anther : A Petunia Mutant That Abolishes Pollen Flavonol Accumulation, Induces Male Sterility, and Is Complemented by a Chalcone Synthase Transgene1". Plant Physiology. 120 (2): 615–622. doi:10.1104/pp.120.2.615. ISSN 1532-2548. PMC 59301. PMID 10364414.

[10] Gendler, Karla; Paulsen, Tara; Napoli, Carolyn (2008-01-01). "ChromDB: The Chromatin Database". Nucleic Acids Research. 36 (suppl_1): D298–D302. doi:10.1093/nar/gkm768. ISSN 0305-1048. PMC 2238968. PMID 17942414.

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