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Genetic variation of arta populations (Calligonum polygonoides subsp. comosum) in Egypt : Genepools for biodiversity and afforestation

Autorzy
Mahdy Ehab M.B. , Rizk Rehab M.
Treść / Zawartość
Pełne teksty:
Mahdy_Genetic_56_2023.pdf
Identyfikatory
DOI
10.24425/jwld.2023.143748
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Genetic diversity manipulates a prime and vital role in the sustainable use of genetic resources. The data highlighted more insights into the genetic diversity of the arta plant (Calligonum polygonoides subsp. comosum) populations collected from three localities, Qalabshu (QQ), Mutubas (MM) and Gamasa (GG), in Egypt as gene pool for biodiversity conservation and afforestation. Random amplified polymorphic DNA (RAPD) markers investigated the population pattern and structure. A total of 129-amplicons oscillated from 145 to 1505 bp and a total of 19-amplicons were specific markers with an average of nine bands for each population. The Shannon index (I) scored at an average of 0.3. The diversity (h) oscillated from 0.11 to 0.25. The similarity matrices based on Jaccard coefficient recorded positive values. A higher correlation (r = 0.83) was between the combined Qalabshu (QQ) and Mutubas (MM) matrices using the Mantel test with 1,000 permutations. This species has higher adaptability for their regions. This gene pool is a valuable reservoir for enriching genetic diversity and provides basal information for the biodiversity conservation of a dominant species. The dominant species can be utilised in afforestation in the same region or another region which has the same environmental conditions.
Słowa kluczowe
EN
Wydawca
Wydawnictwo ITP
Czasopismo
Journal of Water and Land Development
Rocznik
2023
Tom
no. 56
Strony
81--90
Opis fizyczny
Bibliogr. 59 poz., rys., tab., wykr.
Twórcy
autor
Mahdy Ehab M.B.
ehab.mahdy@arc.sci.eg
  • National Gene Bank (NGB), Agricultural Research Centre (ARC), 9 Gamaa St, P.O. Box 12619, Giza, Egypt
autor
Rizk Rehab M.
  • Mansoura University, Faculty of Science, Botany Department, Mansoura, Egypt
Bibliografia
  • ABDEL KHALIL K., ABD EL-TWAN M., GALAL R. 2014. Genetic diversity and relationships among Egyptian Galium (Rubiaceae) and related species using ISSR and RAPD markers. Biologia. Vol. 69 p. 300–310. DOI 10.2478/s11756-013-0314-z.
  • ANDERSON J.A., CHURCHILL G.A., AUTRIQUE J.E., TANKSLEY S.D., SORRELLS M.E. 1993. Optimizing parental selection for genetic-linkage maps. Genome. Vol. 36(1) p. 181–186. DOI 10.1139/g93-024.
  • BEWAL S., SHARMA S.K., RAO S.R. 2008. Analysis of intra-specific genetic variation in Calligonum polygonoides L. (Polygonaceae) – A key-stone species of Indian desert. Cytologia. Vol. 73(4) p. 411–423. DOI 10.1508/cytologia.73.411.
  • BLANCHET S., PRUNIER J.G., PAZ-VINAS I., SAINT-PÉ K., REY O., RAFFARD A., MATHIEU-BÉGNÉ E., LOOT G., FOURTUNE L., DUBUT V. 2020. A river runs through it: The causes, consequences and management of intraspecific diversity in river networks. Evolutionary Applications. Vol. 13(3) p. 1195–1213. DOI 10.1111/eva.12941.
  • BOTSTEIN D., WHITE R.L., SKOLNICK M., DAVIS R.W. 1980. Construction of a genetic map in man using restriction fragment length polymorphism. American Journal of Human Genetics. Vol. 32 p. 314–331. PMID: 6247908; PMCID: PMC1686077.
  • BOULOS L. 1995. Flora of Egypt. Checklist. Cairo, Egypt. Al-Hadara Publishing. ISBN 9789775429087 pp. 283.
  • BOULOS L. 1999. Flora of Egypt. Vol. 1. Cairo, Egypt. Al Hadara Publishing. ISBN 977-5429-15-5 pp. 419.
  • BOULOS L. 2009. Flora of Egypt. Checklist. Revised annotated edition. Cairo, Egypt. Al Hadara Publishing. ISBN 9789775429087 pp. 410.
  • DELLAPORTA S.L., WOOD J., HICKS J.B. 1983. A plant DNA mini-preparations. Version II. Plant Molecular Biology Reporter. Vol. 1 p. 19–21. DOI 10.1007/BF02712670.
  • DHIEF A., GUASMI F., TRIKI T., MOHAMED N., ASCHI-SMITI S. 2011. Natural genetic variation in Calligonum Tunisian genus analyzed by RAPD markers. African Journal of Biotechnology. Vol. 10(48) p. 9766–9778. DOI 10.5897/AJB11.070.
  • GOUGERDCHI V., DEZHSETAN S., EBRAHIMI M.A., SADEGHZADEH B., SAVARI S. 2014. Using SSR markers for assessment genetic diversity and detection drought escape candidate genes in barley lines (Hordeum vulgare L.). Plant Breeding and Seed Science. Vol. 70 p. 1–14. DOI 10.1515/plass-2015-0009.
  • GOYAL M., SHARMA S.K. (eds.) 2006. Prospects and dimension for utilization of arid foods. Bikaner. Yash Publishing House p. 101–103.
  • GRATIVOL C., LIRA-MEDEIROS C.D., HEMERLY A.S., FERREIRA P.C.G. 2011. High efficiency and reliability of inter-simple sequence repeats (ISSR) markers for evaluation of genetic diversity in Brazilian cultivated Jatropha curcas L. accessions. Molecular Biology Reporter. Vol. 38 p. 4245–4256. DOI 10.1007/s11033-010-0547-7.
  • HARTL D.L., CLARK A.G. 1997. Principles of population genetics. 3 rd ed. Sunderland, MA, USA. Sinauer Associates, Inc. ISBN 0-87893-306-9 pp. 519.
  • JACCARD P. 1908. Nouvelles recherchés sur la distribution florale [New research on floral distribution]. Bulletin de la Société vaudoise des Sciences Naturelles. Vol. 44 p. 223–270.
  • KIM H.T., KIM J.S., LEE Y.M., MUN J.H., KIM J.H. 2019. Molecular markers for phylogenetic applications derived from comparative plastome analysis of Prunus species. Journal of Systematics and Evolution. Vol. 57(1) p. 15–22. DOI 10.1111/jse.12453.
  • LANGRIDGE P., CHALMERS K.J. 2004. The principle: Identification and application of molecular markers. Chapt. I.1. In: Biotechnology in agriculture and forestry. Eds. H. Lörz, G. Wenzel. Ser. Agriculture. Vol. 55. Molecular marker systems in plant breeding and crop improvement. Berlin–Heidelberg. Springer-Verlag p. 3–22.
  • MA X., ZHANG X.Q., ZHOU Y.H., BAI S.-Q., LIU W. 2008. Assessing genetic diversity of Elymus sibiricus (Poaceae: Triticeae) population from Qinghai – Tibet Plateau by ISSR markers. Biochemical Systematics and Ecology. Vol. 36 p. 514–522. DOI 10.1016/j.bse.2008.03.003.
  • MAHDY E.M.B. 2018. Genetical studies on DNA storage and preservation on some accessions of cowpea plant. PhD thesis. Cairo, Egypt. Al-Azhar University pp. 139.
  • MANTEL N. 1967. The detection of disease clustering and a generalized regression approach. Cancer Research. Vol. 27 p. 209–220.
  • MARYAMGUL A., GULNUR S., LIU B., YIN L., PAN B. 2012. Taxonomy of two Calligonum species inferred from morphological and molecular data. Vegetos. Vol. 25(2) p. 232–236.
  • NACEUR A.B., CHAABANE R., EL-FALEH M., ABDELLY C., RAMLA D., NADA A., SAKR M., BEN NACEUR M. 2012. Genetic diversity analysis of North Africa’s barley using SSR markers. Journal Genetic Engineering and Biotechnology. Vol. 10 p. 13–21. DOI 10.1016/j.jgeb.2011.12.003.
  • NEI M., LI M. 1979. Mathematical model for studying genetic variation in terms of restriction endonucleases. Proceeding of National Academy of Science of USA. Vol. 76 p. 5269–5273.
  • PEAKALL R., SMOUSE P.E. 2006. GENALEX 6: Genetic analysis in Excel. Population genetic software for teaching and research. Molecular Ecology Notes. Vol. 6 p. 288–295. DOI 10.1111/j.1471-8286.2005.01155.x.
  • PEAKALL R., SMOUSE P.E. 2012. GenAlEx 6.5: Genetic analysis in Excel. Population genetic software for teaching and research – an update. Bioinformatics. Vol. 28(19) p. 2537–2539. DOI 10.1093/bioinformatics/bts460.
  • PERVAIZ I., SALEEM H., SARFRAZD M., TOUSIF M.I., KHURSHID U., AHMAD S., ..., AHEMAD N. 2020. Multidirectional insights into the phyto-chemical, biological, and multivariate analysis of the famine food plant (Calligonum polygonoides L.): A novel source of bioactive phytocompounds. Food Research International. Vol. 137, 109606. DOI 10.1016/j.foodres.2020.109606.
  • POWELL W., MORGANTE M., ANDRE C., HANAFEY M., VOGEL J., TINGEY S., RAFALSKI A. 1996. The comparison of RFLP, RAPD, AFLP and SSR (microsatellite) marker for germplasm analysis. Molecular Breeding. Vol. 2 p. 225–238. DOI 10.1007/BF00564200.
  • PRIETO I., VIOLLE C., BARRE P., DURAND J., GHESQUIERE M., LITRICO I. 2015. Complementary effects of species and genetic diversity on productivity and stability of sown grasslands. Nature Plants. Vol. 1, 15033. DOI 10.1038/nplants.2015.33.
  • PUROHIT C.S., KUMAR R. 2020. A review on genus Calligonum L. (Polygonaceae) from India and report Calligonum crinituman addition for flora of India. Journal of Asia-Pacific Biodiversity. Vol. 13 p. 319–324. DOI 10.1016/j.japb.2020.03.002.
  • RADELOFF V.C., WILLIAMS J.W., BATEMAN B.L., BURKE K.D., CARTER S.K., CHILDRESS E.S., ..., USINOWICZ J. 2015. The rise of novelty in ecosystems. Ecological Applications. Vol. 25(8) p. 2051–2068. DOI 10.1890/14-1781.1.
  • RAFFARD A., SANTOUL F., CUCHEROUSSET J., BLANCHET S. 2019. The community and ecosystem consequences of intraspecific diversity: A meta-analysis. Biological Reviews. Vol. 94(2) p. 648–661. DOI 10.1111/brv.12472.
  • REN J., TAO L. 2002. RAPD study on inter-species relationships in Calligonum. Acta Botanica Boreali-Occidentalia Sinica. Vol. 22 p. 338–343.
  • RUSSELL J.R., FULLER J.D., MACAULAY M., HATZ B.G., JAHOOR A., POWELL W., WAUGH R. 1997. Direct comparison of levels of genetic variation among barley accessions detected by RFLPs, AFLPs, SSRs and RAPDs. Theoretical and Applied Genetics. Vol. 95 p. 714–722. DOI 10.1007/s001220050617.
  • SAMBROOK J., FRITSCH E.F., MANIATIS T. 1989. Molecular cloning. A laboratory manual. 2nd ed. New York, USA. CSHL Press. ISBN 0879693096 pp. 1659.
  • SAMEJO M.Q., MEMON S., BHANGER M.I., KHAN K.M. 2013. Chemical composition of essential oil from Calligonum polygonoides Linn. Natural Product Research. Vol. 27(7) p. 619–623. DOI 10.1080/14786419.2012.686904.
  • SANCHEZ A., SCHUSTER T.M., BURKE J.M., KRON K.A. 2011. Taxonomy of Polygonoideae (Polygonaceae): A new tribal classification. Taxon. Vol. 60(1) p. 151–160. DOI 10.1002/tax.601013.
  • SHERWIN W.B., JABOT F., RUSH R., ROSSETTO M. 2006. Measurement of biological information with applications from genes to landscapes. Molecular Ecology. Vol. 15 p. 2857–2869. DOI 10.1111/j.1365-294X.2006.02992.x.
  • SINGH U.R., WADHWANI A.M. 1996. Dictionary of economic plants in India. New Delhi. ICAR. ISBN 3768200019 pp. 288.
  • SONG F., LI T., BURGESS K.S., FENG Y., GE X. 2020. Complete plastome sequencing resolves taxonomic relationships among species of Calligonum L. (Polygonaceae) in China. BMC Plant Biology. Vol. 20, 261. DOI 10.1186/s12870-020-02466-5.
  • SOSKOV YU .D. 2011. Rod Calligonum L. – zhuzgun (sistematika, geografiya, evolyutsiya, introduktsiya) [Genus Calligonum L. – zhuzgun (taxonomy, geography, evolution, introduction)]. Novosibirsk. RITS SibNSKHB pp. 362.
  • STEARN W.T. 1973. Botanical Latin. 2 nd ed. Newton Abbott. David and Charles. ISBN 0715356453 pp. 596.
  • SUN Y.X., ZHANG M.L. 2012. Molecular phylogeny of tribe Atraphaxideae (Polygonaceae) evidenced from five cpDNA genes. Journal of Arid Land. Vol. 4(2) p. 180–190. DOI 10.3724/SP.J.1227.2012.00180.
  • TADEVOSYAN T.L. 2001. On the ecology of the joint weed-like Calligonum (Calligonum polygonoides L., Dicotyledones, Polygonaceae). In: Proceedings of republican youth scientific conference: The future of ecological science in Armenia. Yerevan. Center for Ecological-Noosphere Studies NAS RA Council of the Young Researches, Yerevan State University Student Scientific Society p. 35–42. [In Russian].
  • TAO L., REN J. 2004. Study on relationship and cluster of Calligonum by isozyme electrophoresis analysis. Acta Botanica Boreali-Occidentalia Sinica. Vol. 24 p. 1708–1713.
  • The Plant List 2013. Version 1.1 [online]. [Access 20.04.2018]. Available at: http://www.theplantlist.org/
  • TOMKA M., CHNAPEK M., BALÁŽOVÁ Ž., GÁLOVÁ Z. 2013. Differentiation of barley genotypes based on DNA polymorphism. Journal Microbiology, Biotechnology and Food Science. Vol. 1 p. 1677–1684.
  • UENO S., TOMARU N., YOSHIMARU H., MANABE T., YAMAMOTO S. 2000. Genetic structure of Camellia japonica L. in an old-growth evergreen forest, Tsushima, Japan. Molecular Ecology. Vol. 9 p. 647–656. DOI 10.1046/j.1365-294x.2000.00891.x.
  • VARSHNEY R.K., MAHENDAR T., AGGARWAL R.K., BORNER A. 2007. Genic molecular markers in plants: Development and application. In: Genomics-assisted crop improvement. Vol. 1. Genomics approaches and platforms. Eds. R.K. Varshney, R. Tuberosa. Dordrecht. Springer p. 13–29. DOI 10.1007/978-1-4020-6295-7_2.
  • VARSHNEY R.K., SALEM K.F.M., BAUM M., RODER M.S., GRANER A., BÖRNER A. 2008. SSR and SNP diversity in a barley germplasm collection. Plant Genetic Resources. Vol. 6 p. 167–174. DOI 10.1017/S1479262108993187.
  • VYAS G.K., KUMAR V., SHARMA R. SHARMA R.A., SHARMA S., SINGH J.P., KUMAR S. 2012. Chemical and genetic diversity among some wild stands of Calligonum polygonoides (Polygonaceae) from the Thar Desert of Rajasthan. Revista de Biología Tropícal. Vol. 60(3) p. 1097–1108.
  • WANG J., YANG J., ZHU J., JIA Q., TAO Y. 2010. Assessment of genetic diversity by simple sequence repeat markers among forty elite varieties in the germplasm for malting barley breeding. Journal of Zhejiang University Science B. Vol. 11 p. 792–800. DOI 10.1631/jzus.B0900414.
  • WILLIAMS J.G.K., HAMAFAY M.K., RAFALSKI J.A., TINGEY S.W. 1993. Genetic analysis using random amplified polymorphic DNA markers. Methods in Enzymology. Vol. 218 p. 704–740. DOI 10.1016/0076-6879(93)18053-F.
  • WILLIAMS J.G.K., KUBELIK A.R., LIVAK K.J., LRAFALSKI J.A., TINGEY S.V. 1990. DNA polymorphisms amplified by arbitrary primers are useful genetic markers. Nucleic Acids Research. Vol. 18 p. 6531–6535. DOI 10.1093/nar/18.22.6531.
  • WU H.X. 2019. Benefits and risks of using clones in forestry – A review. Scandinavian Journal of Forest Research. Vol. 34 p. 352–359. DOI 10.1080/02827581.2018.1487579.
  • WU K.S., ONES J.R., DANNEBERGER L. 2004. Detection of microsatellite polymorphisms without cloning. Nucleic Acids Research. Vol. 22 p. 3257–3258. DOI 10.1093/nar/22.15.3257.
  • XIANG Q.P., WEI R., SHAO Y.Z., YANG Z.-Y., WANG X.-Q., ZHANG X.-C. 2015. Phylogenetic relationships, possible ancient hybridization, and biogeographic history of Abies (Pinaceae) based on data from nuclear, plastid, and mitochondrial genomes. Molecular Phylogenetics and Evolution. Vol. 82. Part A p. 1–14. DOI 10.1016/j.ympev.2014.10.008.
  • XU Q., ZENG X., LIN B., LI Z., YUAN H., WANG Y., ZASANG, TASHI N. 2017. A microsatellite diversity analysis and the development of core-set germplasm in a large hulless barley (Hordeum vulgare L.) collection. BMC Genetics. Vol. 18, 102. DOI 10.1186/s12863-017-0563-x.
  • YADAV S.K., SINGH A.K., MALIK R. 2015. Genetic diversity analysis based on morphological traits and microsatellite markers in barley (Hordeum vulgare L.). Indian Journal of Agricultural Sciences. Vol. 85 p. 37–44.
  • ZAHER A.M., AHMED M.A.M., MOHAMED N.M. 2020. Anti-inflammatory activity of the food plant Calligonum polygonoides L. flavonoids targeting NF-κB. Bulletin of Pharmaceutical Sciences. Assiut University. Vol. 43(2) p. 157–164. DOI 10.21608/bfsa.2020.127408.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c13deac4-2d72-435b-9f44-16369a270ded
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