آمار
| تعداد نشریات | 43 |
| تعداد شمارهها | 1,253 |
| تعداد مقالات | 15,411 |
| تعداد مشاهده مقاله | 51,245,751 |
| تعداد دریافت فایل اصل مقاله | 14,253,942 |
Morphological and molecular study of sex determination in Cannabis sativa L. | ||
| Journal of Plant Physiology and Breeding | ||
| مقاله 11، دوره 9، شماره 1، شهریور 2019، صفحه 137-146 اصل مقاله (574.01 K) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22034/jppb.2019.10397 | ||
| نویسندگان | ||
| Maryam Rahimi1؛ Majid Shokrpour* 2؛ Seyed Alireza Salami2؛ Mohammad Reza Taheri2 | ||
| 1MSc student, Department of Horticultural Science, College of Agriculture and Natural Resources, University of Tehran, Karaj, Iran. | ||
| 2Department of Horticultural Science, College of Agriculture and Natural Resources, University of Tehran, Karaj, Iran. | ||
| چکیده | ||
| Cannabis sativa L. is an important plant with various uses in pharmaceutical and paper production industries. Due to the higher priority of female and male Cannabis plants for pharmaceutical uses and fibre industry, respectively, reduction of the quality of products after pollination, and also for detection of better genotypes before pollination for breeding purposes, early determination of sex in Cannabis is one of the major concerns of researchers and farmers. Seeds of 26 accessions from different regions of Iran along with one accession from Afghanistan were planted in the field based on randomized complete block design with 10 replications. Five female and five male plants were sampled from each accession for molecular and morphological analyses. Thirteen ISSR primers and two SCAR markers were used. Also, morphological differences, which possibly related to sex were measured in the Cannabis populations under study. The results showed significant differences among the accessions within female and male plants for plant height, number of days to flowering, days after full bloom and height of the first flowering node. Male plants were generally, but not always, taller than female plants and had a shorter life cycle. The highest expected heterozygosity was found in the ISSR3 primer and the lowest in the UBC825 primer. In total, 143 polymorphic bands and one polymorphic band were amplified using ISSR and SCAR primers, respectively. Out of 143 polymorphic ISSR bands, only 10 markers had significant relations with the gender of this plant. MADC6 SCAR marker was monomorph across the accessions. On the other hand, MADC5 was a polymorphic marker and showed a significant relation with gender. These markers, especially MADC5, have the potential to be used in sex determination of C. sativa. | ||
| کلیدواژهها | ||
| Cannabis؛ Female؛ Male؛ Molecular markers؛ Morphological markers؛ Sex determination | ||
| مراجع | ||
|
Andre CM, Hausman JF and Guerriero G, 2016. Cannabis sativa: the plant of the thousand and one molecules. Frontiers in Plant Science 7:19. doi:10.3389/fpls.2016.00019.
Dellaporta SL and Calderon-Urrea A, 1993. Sex determination in flowering plants. Plant Cell 5(10):1241-1251.
De Meijer EPM and Keizer LC, 1994. Variation of Cannabis for phonological development and stem elongation in relation to stem production. Field Crops Research 38(1): 37-46.
Doyle JJ, 1990. Isolation of plant DNA from fresh tissue. Focus 12: 13-15.
Divashuk MG, Alexandrov OS, Razumova OV, Kirov IV and Karlov GI, 2014. Molecular cytogenetic characterization of the dioecious Cannabis sativa with an XY chromosome sex determination system. PLoSOne 9(1): doi: 10.1371/journal.pone.0085118.
Flachowsky H, Schumann E, Weber WE and Peil A, 2008. Application of AFLP for the detection of sex-specific markers in hemp. Plant Breeding 12(4): 305-309.
Heikrujam M, Sharma K, Prasad M and Agrawal V, 2015. Review on different mechanisms of sex determination and sex-linked molecular markers in dioecious crops: a current update. Euphytica 201: 161-194.
Hill M, 1973. Diversity and evenness: a unifying notation and its consequences. Ecology, 54: 427-432.
Hoffmann W, 1947. Die Vererbung der Geschlechtsformen des hanfes (Cannabis sativa L.) I. Der Zuchter 17/18: 257-277.
Hormaza JI, Dollo L and Polito VS, 1994. Identification of a RAPD marker linked to sex determination in Pistacia vera using bulked segregant analysis. Theoretical and Applied Genetics 89: 9-13.
Mandolino G, Carboni A, Forapani S, Faeti V and Ranalli P, 1999. Identification of DNA markers linked to the male sex in dioecious hemp (Cannabis sativa L.). Theoretical and Applied Genetics 98: 86-92.
Mediavilla V, Jonquera M, Schmid-Slembrouck I and Soldati A, 1998. A decimal code for growth stages of hemp (Cannabis sativa L.). Journal of Industrial Hemp 5: 65-74.
Milewicz M and Sawicki J, 2013. Sex-linked markers in dioecious plants. Plant Omics Journal 6(2): 144-149.
Moliterni VMC, Cattivelli L, Ranalli P and Mandolino G, 2004. The sexual differentiation of Cannabis sativa L.: a morphological and molecular study. Euphytica 140: 95-106.
Nei M, 1973. Analysis of gene diversity in subdivided populations. PNAS USA 70(12): 3321-3323.
Nei M, 1978. Estimation of average heterozygosity and genetic distance from a small number of individuals. Genetics 89(3): 583-590.
Parker JS, 1990. Sex chromosomes and sexual differentiation in flowering plants. Chromosomes Today 10: 187-198.
Peil A, Flachowsky H, Schumann E and Weber WE, 2003. Sex-linked AFLP markers indicate a pseudoautosomal region in hemp (Cannabis sativa L.). Theoretical and Applied Genetics107(1): 102-109.
Pérez-Llorca M and Sánchez Vilas J, 2019. Sexual dimorphism in response to herbivory and competition in the dioecious herb Spinacia oleracea. Plant Ecology 220: 57-68. Rode J, In-Chol K, Saal B, Flachowsky H, Kriese U and Weber WE, 2005. Sex-linked SSR markers in hemp. Plant Breeding124: 167-170.
Sakamoto K, Akiyama Y, Fukui K, Kamada H and Satoh S, 1998. Characterization; genome sizes and morphology of sex chromosomes in hemp (Cannabis sativa L.). Cytologia 63: 459-464.
Sakamoto K, Shimomura K, Komeda Y, Kamada H and Satoh S, 1995. A male- associated DNA sequence in dioecious plant, Cannabis sativa L. Plant and Cell Physiology 36(8): 1549-1554.
Samantaray S, Phurailatpam A, Bishoyi AK, Geetha KA andMaiti S, 2012. Identification of sex-specific DNA markers in betel vine(Piper betleL.). Genetic Resources and Crop Evolution 59: 645-653.
Shannon CA, 1948. Mathematical theory of communication. Bell System Technical Journal 27: 379-423.
Thomas B and Vince-Prue D, 1997. Photoperiodism in Plants. Second edition. Academic Press, USA.
Torjek O, Bucherna N, Kiss E, Homoki H, Finta-Korpelová Z, Bócsa I, Nagy I and Heszky LE, 2002. Novel male-specific molecular markers (MADC5, MADC6) in hemp. Euphytica 127: 209-218.
| ||
|
آمار تعداد مشاهده مقاله: 608 تعداد دریافت فایل اصل مقاله: 680 |
||