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Solanum americanum: An alternative model crop in plant pathology

Year 2024, Volume: 37 Issue: 1, 23 - 26, 17.04.2024
https://doi.org/10.29136/mediterranean.1428267

Abstract

The Solanum americanum, possesses valuable features that earn it a deserved addition to the expanding list of model plants that are utilized in the fields of plant genetics, plant breeding and biotechnology. This review attempts to comprehensively highlight the crucial role of this model plant and its genetic diversity in terms of resistance against biotic pathogens. In summary, we recommend the use of this plant in future studies focused on plant-pathogen interactions.

References

  • Afolabi OC, Ogunsola FT, Coker AO (2008) Susceptibility of cariogenic Streptococcus mutans to extracts of Garcinia kola, Hibiscus sabdariffa, and Solanum americanum. West African Journal of Medicine 27(4).
  • Al-Shahwan IM, Abdalla OA, Al-Saleh MA, Amer MA (2017) Detection of new viruses in alfalfa, weeds and cultivated plants growing adjacent to alfalfa fields in Saudi Arabia. Saudi Journal of Biological Sciences 24(6): 1336-1343. doi: 10.1016/j.sjbs.2016.02.022.
  • Araújo ER, Costa JR, Pontes NC, Quezado-Duval AM (2015) Xanthomonas perforans and X. gardneri associated with bacterial leaf spot on weeds in Brazilian tomato fields. European Journal of Plant Pathology 143(3): 543-548. doi: 10.1007/s10658-015-0705-9.
  • Arie T, Takahashi H, Kodama M, Teraoka T (2007) Tomato as a model plant for plant-pathogen interactions. In Plant Biotechnology 24(1): 135-147. doi: 10.5511/plantbiotechnology.24.135.
  • Arruabarrena A, Rubio L, González-Arcos M, Maeso D, Sánchez-Campos S, Fonseca M. DN, Boiteux LS (2015) First report of Solanum sisymbriifolium and S. americanum as natural weed hosts of Tomato chlorosis virus (genus Crinivirus) in South America. Plant Disease 99(6): 895.
  • Badillo-Vargas IE, Roe N, Funderburk, JE, Adkins S (2015) First Report of Tomato chlorotic spot virus in Scarlet Eggplant (Solanum aethiopicum) and American Black Nightshade (Solanum americanum) in the United States. Plant Disease 99(10): 1450.
  • Cáceres A, López B, González S, Berger I, Tada I, Maki J (1998) Plants used in Guatemala for the treatment of protozoal infections. I. Screening of activity to bacteria, fungi and American trypanosomes of 13 native plants. Journal of Ethnopharmacology 62(3): 19-202. doi: 10.1016/S0378-8741(98)00140-8.
  • Cao Y, Zhou H, Zhou X, Li F (2020) Control of plant viruses by CRISPR/Cas system-mediated adaptive immunity. Frontiers in Microbiology 11: 593-700. doi: 10.3389/fmicb.2020.593700.
  • Feldman M, Levy AA, Fahima T, Korol A (2012) Genomic asymmetry in allopolyploid plants: wheat as a model. Journal of Experimental Botany 63(14): 5045-5059. doi: 10.1093/JXB/ERS192.
  • Gaut BS, D’Ennequin MLT, Peek AS, Sawkins MC (2000) Maize as a model for the evolution of plant nuclear genomes. Proceedings of the National Academy of Sciences 97(13): 7008-7015.
  • Haňcinský R, Mihálik D, Mrkvová M, Candresse T, Glasa M (2020) Plant viruses infecting solanaceae family members in the cultivated and wild environments: A review. Plants 9(5): doi: 10.3390/plants9050667.
  • Izawa T, Shimamoto K (1996) Becoming a model plant: The importance of rice to plant science. Trends in Plant Science 1(3): 95-99. doi: 10.1016/S1360-1385(96)80041-0.
  • Korbecka-Glinka G, Przybyś M, Feledyn-Szewczyk B (2021) A survey of five plant viruses in weeds and tobacco in poland. Agronomy 11(8). doi: 10.3390/agronomy11081667.
  • Lin X, Jia Y, Heal R, Prokchorchik M, Sindalovskaya M, Olave-Achury A, Makechemu M, Fairhead S, Noureen A, Heo J, Witek K, Smoker M, Taylor J, Shrestha RK, Lee Y, Zhang C, Park SJ, Sohn KH, Huang S, Jones JDG (2023) Solanum americanum genome-assisted discovery of immune receptors that detect potato late blight pathogen effectors. Nature Genetics 55(9): 1579-1588. doi: 10.1038/s41588-023-01486-9.
  • Macharia I, Backhouse D, Wu SB, Ateka EM (2016) Weed species in tomato production and their role as alternate hosts of Tomato spotted wilt virus and its vector Frankliniella occidentalis. Annals of Applied Biology 169(2): 224-235. doi: 10.1111/aab.12297.
  • Meissner R, Jacobson S, Melamed S, Levyatuv S, Shalev G, Ashri A, Elkind Y, Levy A (1997) A new model system for tomato genetics. Wiley Online Library 12(6): 1465-1472. doi: 10.1046/j.1365-313x.1997.12061465.x.
  • Meyerowitz EM (2001) Prehistory and history of Arabidopsis research. Plant Physiology 125(1): 15-19. doi: 10.1104/pp.125.1.15.
  • Moon H, Pandey A, Yoon H, Choi S, Jeon H, Prokchorchik M, Jung G, Witek K, Valls M, McCann HC, Kim MS, Jones JDG, Segonzac C, Sohn KH (2021) Identification of RipAZ1 as an avirulence determinant of Ralstonia solanacearum in Solanum americanum. Molecular Plant Pathology 22(3): 317-333. doi: 10.1111/mpp.13030.
  • Opande GT, Musyimi DM, Cherono KL, Jiveri BK, Buyela DK (2017). Antimicrobial Activities of Crude Leaf Extract of Solanum nigrum on Fusarium oxysporum and Pseudomonas syringae Cultures in Maseno (Kenya). Journal of Asian Scientific Research 7(7): 271-278. doi: 10.18488/journal.2.2017.77.271.278.
  • Padole D, Ingle KP (2017) Arabidopsis-A Model Plant. Trends in Biosciences 10(2): 557-559.
  • Pathak N, Prajneshu M, Ahmad S, Kumar L, Bhaduri A, Dhandapanı A, Sharma OP (2020) Phytochemical Analysis and Antifungal Activity of Weed Extracts against Rhizoctonia Root Rot in Buckwheat (Fagopyrum tataricum). Biopesticides International 16(2): 125-131.
  • Romay G, Chirinos DT, Geraud‐Pouey F, Torres M, Bragard C (2016) First report of Potato yellow mosaic virus infecting Solanum americanum in Venezuela. New Disease Reports 34(1): 20-20. doi: 10.5197/j.2044-0588.2016.034.020.
  • Schilling EE, And QM, Andersen RN (1992) Common Names and Species Identification in Black Nightshades, Solanum sect . Solanum (Solanaceae). Economic Botany 46(2): 223-225.
  • Strable J, Scanlon MJ (2009) Maize (Zea mays): A model organism for basic and applied research in plant biology. Cold Spring Harbor Protocols 4(10). doi: 10.1101/pdb.emo132.
  • Vandeventer JW, Meggitt WF, Penner D (1982) Morphological and physiological variability in black nightshade (Solanum spp.). Pesticide Science 13(3): 257-262. doi: 10.1002/ps.2780130306.
  • Witek K, Lin X, Karki HS, Jupe F, Witek AI, Steuernagel B, Stam R, Van Oosterhout C, Fairhead S, Heal R, Cocker JM, Bhanvadia S, Barrett W, Wu CH, Adachi H, Song T, Kamoun S, Vleeshouwers VGAA, Tomlinson L, Jones JDG (2021) A complex resistance locus in Solanum americanum recognizes a conserved Phytophthora effector. Nature Plants 7(2): 198-208. https://doi.org/10.1038/s41477-021-00854-9.

Solanum americanum: An alternative model crop in plant pathology

Year 2024, Volume: 37 Issue: 1, 23 - 26, 17.04.2024
https://doi.org/10.29136/mediterranean.1428267

Abstract

The Solanum americanum, possesses valuable features that earn it a deserved addition to the expanding list of model plants that are utilized in the fields of plant genetics, plant breeding and biotechnology. This review attempts to comprehensively highlight the crucial role of this model plant and its genetic diversity in terms of resistance against biotic pathogens. In summary, we recommend the use of this plant in future studies focused on plant-pathogen interactions.

Ethical Statement

There is no Ethical issue in the paper

Thanks

The authors would like to thank Prof. Dr. Jonathan D. JONES of the Sainsbury Laboratory and Dr. Volkan ÇEVİK (Bath University) for the supply of Solanum americanum seeds.

References

  • Afolabi OC, Ogunsola FT, Coker AO (2008) Susceptibility of cariogenic Streptococcus mutans to extracts of Garcinia kola, Hibiscus sabdariffa, and Solanum americanum. West African Journal of Medicine 27(4).
  • Al-Shahwan IM, Abdalla OA, Al-Saleh MA, Amer MA (2017) Detection of new viruses in alfalfa, weeds and cultivated plants growing adjacent to alfalfa fields in Saudi Arabia. Saudi Journal of Biological Sciences 24(6): 1336-1343. doi: 10.1016/j.sjbs.2016.02.022.
  • Araújo ER, Costa JR, Pontes NC, Quezado-Duval AM (2015) Xanthomonas perforans and X. gardneri associated with bacterial leaf spot on weeds in Brazilian tomato fields. European Journal of Plant Pathology 143(3): 543-548. doi: 10.1007/s10658-015-0705-9.
  • Arie T, Takahashi H, Kodama M, Teraoka T (2007) Tomato as a model plant for plant-pathogen interactions. In Plant Biotechnology 24(1): 135-147. doi: 10.5511/plantbiotechnology.24.135.
  • Arruabarrena A, Rubio L, González-Arcos M, Maeso D, Sánchez-Campos S, Fonseca M. DN, Boiteux LS (2015) First report of Solanum sisymbriifolium and S. americanum as natural weed hosts of Tomato chlorosis virus (genus Crinivirus) in South America. Plant Disease 99(6): 895.
  • Badillo-Vargas IE, Roe N, Funderburk, JE, Adkins S (2015) First Report of Tomato chlorotic spot virus in Scarlet Eggplant (Solanum aethiopicum) and American Black Nightshade (Solanum americanum) in the United States. Plant Disease 99(10): 1450.
  • Cáceres A, López B, González S, Berger I, Tada I, Maki J (1998) Plants used in Guatemala for the treatment of protozoal infections. I. Screening of activity to bacteria, fungi and American trypanosomes of 13 native plants. Journal of Ethnopharmacology 62(3): 19-202. doi: 10.1016/S0378-8741(98)00140-8.
  • Cao Y, Zhou H, Zhou X, Li F (2020) Control of plant viruses by CRISPR/Cas system-mediated adaptive immunity. Frontiers in Microbiology 11: 593-700. doi: 10.3389/fmicb.2020.593700.
  • Feldman M, Levy AA, Fahima T, Korol A (2012) Genomic asymmetry in allopolyploid plants: wheat as a model. Journal of Experimental Botany 63(14): 5045-5059. doi: 10.1093/JXB/ERS192.
  • Gaut BS, D’Ennequin MLT, Peek AS, Sawkins MC (2000) Maize as a model for the evolution of plant nuclear genomes. Proceedings of the National Academy of Sciences 97(13): 7008-7015.
  • Haňcinský R, Mihálik D, Mrkvová M, Candresse T, Glasa M (2020) Plant viruses infecting solanaceae family members in the cultivated and wild environments: A review. Plants 9(5): doi: 10.3390/plants9050667.
  • Izawa T, Shimamoto K (1996) Becoming a model plant: The importance of rice to plant science. Trends in Plant Science 1(3): 95-99. doi: 10.1016/S1360-1385(96)80041-0.
  • Korbecka-Glinka G, Przybyś M, Feledyn-Szewczyk B (2021) A survey of five plant viruses in weeds and tobacco in poland. Agronomy 11(8). doi: 10.3390/agronomy11081667.
  • Lin X, Jia Y, Heal R, Prokchorchik M, Sindalovskaya M, Olave-Achury A, Makechemu M, Fairhead S, Noureen A, Heo J, Witek K, Smoker M, Taylor J, Shrestha RK, Lee Y, Zhang C, Park SJ, Sohn KH, Huang S, Jones JDG (2023) Solanum americanum genome-assisted discovery of immune receptors that detect potato late blight pathogen effectors. Nature Genetics 55(9): 1579-1588. doi: 10.1038/s41588-023-01486-9.
  • Macharia I, Backhouse D, Wu SB, Ateka EM (2016) Weed species in tomato production and their role as alternate hosts of Tomato spotted wilt virus and its vector Frankliniella occidentalis. Annals of Applied Biology 169(2): 224-235. doi: 10.1111/aab.12297.
  • Meissner R, Jacobson S, Melamed S, Levyatuv S, Shalev G, Ashri A, Elkind Y, Levy A (1997) A new model system for tomato genetics. Wiley Online Library 12(6): 1465-1472. doi: 10.1046/j.1365-313x.1997.12061465.x.
  • Meyerowitz EM (2001) Prehistory and history of Arabidopsis research. Plant Physiology 125(1): 15-19. doi: 10.1104/pp.125.1.15.
  • Moon H, Pandey A, Yoon H, Choi S, Jeon H, Prokchorchik M, Jung G, Witek K, Valls M, McCann HC, Kim MS, Jones JDG, Segonzac C, Sohn KH (2021) Identification of RipAZ1 as an avirulence determinant of Ralstonia solanacearum in Solanum americanum. Molecular Plant Pathology 22(3): 317-333. doi: 10.1111/mpp.13030.
  • Opande GT, Musyimi DM, Cherono KL, Jiveri BK, Buyela DK (2017). Antimicrobial Activities of Crude Leaf Extract of Solanum nigrum on Fusarium oxysporum and Pseudomonas syringae Cultures in Maseno (Kenya). Journal of Asian Scientific Research 7(7): 271-278. doi: 10.18488/journal.2.2017.77.271.278.
  • Padole D, Ingle KP (2017) Arabidopsis-A Model Plant. Trends in Biosciences 10(2): 557-559.
  • Pathak N, Prajneshu M, Ahmad S, Kumar L, Bhaduri A, Dhandapanı A, Sharma OP (2020) Phytochemical Analysis and Antifungal Activity of Weed Extracts against Rhizoctonia Root Rot in Buckwheat (Fagopyrum tataricum). Biopesticides International 16(2): 125-131.
  • Romay G, Chirinos DT, Geraud‐Pouey F, Torres M, Bragard C (2016) First report of Potato yellow mosaic virus infecting Solanum americanum in Venezuela. New Disease Reports 34(1): 20-20. doi: 10.5197/j.2044-0588.2016.034.020.
  • Schilling EE, And QM, Andersen RN (1992) Common Names and Species Identification in Black Nightshades, Solanum sect . Solanum (Solanaceae). Economic Botany 46(2): 223-225.
  • Strable J, Scanlon MJ (2009) Maize (Zea mays): A model organism for basic and applied research in plant biology. Cold Spring Harbor Protocols 4(10). doi: 10.1101/pdb.emo132.
  • Vandeventer JW, Meggitt WF, Penner D (1982) Morphological and physiological variability in black nightshade (Solanum spp.). Pesticide Science 13(3): 257-262. doi: 10.1002/ps.2780130306.
  • Witek K, Lin X, Karki HS, Jupe F, Witek AI, Steuernagel B, Stam R, Van Oosterhout C, Fairhead S, Heal R, Cocker JM, Bhanvadia S, Barrett W, Wu CH, Adachi H, Song T, Kamoun S, Vleeshouwers VGAA, Tomlinson L, Jones JDG (2021) A complex resistance locus in Solanum americanum recognizes a conserved Phytophthora effector. Nature Plants 7(2): 198-208. https://doi.org/10.1038/s41477-021-00854-9.
There are 26 citations in total.

Details

Primary Language English
Subjects Vegetable Growing and Treatment, Phytopathology
Journal Section Makaleler
Authors

Abdul Razak Ahmed 0000-0001-6508-5410

Abdellahi Galledou 0009-0001-6767-2528

Utku Demirtaş 0009-0003-8661-5902

Hakan Fidan 0000-0002-0384-9486

Özer Çalış 0000-0002-7219-1219

Publication Date April 17, 2024
Submission Date January 30, 2024
Acceptance Date March 25, 2024
Published in Issue Year 2024 Volume: 37 Issue: 1

Cite

APA Ahmed, A. R., Galledou, A., Demirtaş, U., Fidan, H., et al. (2024). Solanum americanum: An alternative model crop in plant pathology. Mediterranean Agricultural Sciences, 37(1), 23-26. https://doi.org/10.29136/mediterranean.1428267
AMA Ahmed AR, Galledou A, Demirtaş U, Fidan H, Çalış Ö. Solanum americanum: An alternative model crop in plant pathology. Mediterranean Agricultural Sciences. April 2024;37(1):23-26. doi:10.29136/mediterranean.1428267
Chicago Ahmed, Abdul Razak, Abdellahi Galledou, Utku Demirtaş, Hakan Fidan, and Özer Çalış. “Solanum Americanum: An Alternative Model Crop in Plant Pathology”. Mediterranean Agricultural Sciences 37, no. 1 (April 2024): 23-26. https://doi.org/10.29136/mediterranean.1428267.
EndNote Ahmed AR, Galledou A, Demirtaş U, Fidan H, Çalış Ö (April 1, 2024) Solanum americanum: An alternative model crop in plant pathology. Mediterranean Agricultural Sciences 37 1 23–26.
IEEE A. R. Ahmed, A. Galledou, U. Demirtaş, H. Fidan, and Ö. Çalış, “Solanum americanum: An alternative model crop in plant pathology”, Mediterranean Agricultural Sciences, vol. 37, no. 1, pp. 23–26, 2024, doi: 10.29136/mediterranean.1428267.
ISNAD Ahmed, Abdul Razak et al. “Solanum Americanum: An Alternative Model Crop in Plant Pathology”. Mediterranean Agricultural Sciences 37/1 (April 2024), 23-26. https://doi.org/10.29136/mediterranean.1428267.
JAMA Ahmed AR, Galledou A, Demirtaş U, Fidan H, Çalış Ö. Solanum americanum: An alternative model crop in plant pathology. Mediterranean Agricultural Sciences. 2024;37:23–26.
MLA Ahmed, Abdul Razak et al. “Solanum Americanum: An Alternative Model Crop in Plant Pathology”. Mediterranean Agricultural Sciences, vol. 37, no. 1, 2024, pp. 23-26, doi:10.29136/mediterranean.1428267.
Vancouver Ahmed AR, Galledou A, Demirtaş U, Fidan H, Çalış Ö. Solanum americanum: An alternative model crop in plant pathology. Mediterranean Agricultural Sciences. 2024;37(1):23-6.

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