علوم باغبانی

شماره جاری

بر اساس شماره‌های نشریه

بر اساس نویسندگان

بر اساس موضوعات

نمایه نویسندگان

نمایه کلیدواژه ها

درباره نشریه

اهداف و چشم انداز

بانک ها و نمایه نامه ها

پرسش‌های متداول

فرایند پذیرش مقالات

اطلاعات آماری نشریه

اخبار و اعلانات

پیوندهای مفید

دریافت فایل های راهنما

دستورالعمل کلی ارسال مقاله

چک لیست ارسال مقاله

ارسال مقاله

راهنمای داوران

اسامی داوران

بهینه سازی کالوس زایی و باززایی دو توده بومی گیاه دارویی شنبلیله (Trigonella foenum– graecum) در شرایط درون شیشه ای

نوع مقاله : مقالات پژوهشی

نویسندگان

1 محقق اردبیلی

2 دانشگاه محقق اردبیلی

چکیده

شنبلیله با نام علمی Trigonella foenum– graecum گیاهی یکساله از تیره بقولات است. ریشه، برگ و بذر آن دارای ترکیبات دارویی مهمی می‌باشد. تحقیق حاضر به منظور تعیین مناسبترین غلظت تنظیم کننده‌های رشد گیاهی برای تولید گیاهچه‌های درون‌شیشه‌ای با استفاده از ریزنمونه‌های کوتیلدون و هیپوکوتیل دو ژنوتیپ ایرانی (اردستانی و نیشابوری) شنبلیله انجام گرفت. ریزنمونه‌ها در محیط کشت MS حاوی تنظیم کننده‌های رشد گیاهی IBAو TDZ جهت القای کالوس و باززایی مستقیم کشت گردیدند. در این آزمایش از دو ترکیب TDZ + IBAاستفاده شد. در ترکیب اول، IBA دارای 4 سطح (0، 1/0، 3/0، 5/0 میلی‌گرم در لیتر) و TDZ دارای 5 سطح (0، 2/0، 4/0، 6/0، 8/0 میلی‌گرم در لیتر) و در ترکیب دوم، IBA دارای 4 سطح (0، 05/0، 1/0، 15/0 میلی‌گرم در لیتر) و TDZ دارای 7 سطح (0، 2/0، 25/0، 3/0، 35/0، 4/0، 45/0 میلی‌گرم در لیتر) بودند. آزمایش‌ها بصورت فاکتوریل در قالب طرح کاملاً تصادفی با 4 تکرار انجام گرفت. نتایج آزمایش نشان داد که ریزنمونه‌های کوتیلدون و هیپوکوتیل ژنوتیپ‌های اردستانی و نیشابوری کالوس‌زایی کردند، در حالیکه باززایی مستقیم تنها در ریزنمونه‌های هیپوکوتیل ژنوتیپ‌ها مشاهده شد. بیشترین درصد کالوس‌زایی ریزنمونه‌های کوتیلدون (75 درصد) در ژنوتیپ نیشابوری و در محیط کشت MS حاوی IBAmg l-1 5/0 + TDZmg l-1 4/0 بدست آمد. همچنین بیشترین درصد کالوس‌زایی ریزنمونه‌های هیپوکوتیل (75 درصد) در ژنوتیپ اردستانی مشاهده شد که در محیط کشت MS حاوی IBAmg l-1 5/0 + TDZmg l-1 8/0 بدست آمد. بیشترین درصد باززایی مستقیم (5/37 درصد) در ریزنمونه‌های هیپوکوتیل ژنوتیپ نیشابوری در محیط کشت MS حاوی IBAmg l-1 05/0 +TDZmg l-1 35/0 حاصل شد.

کلیدواژه‌ها

عنوان مقاله [English]

Optimization of Callus Induction and Regeneration in Two Fenugreek Landraces as a Medicinal Plant during in vitro Condition

نویسندگان [English]

  • Hassan Hasani Jifroudi 1
  • Mehdi Mohebodini 2
  • Behrooz Esmaielpour 2
  • Esmaeil Chamani 1

1 University of Mohaghegh Ardabili

2 University of Mohaghegh Ardabili

چکیده [English]

Introduction: Fenugreek (Trigonella foenum- graecum) is a medicinal plant extensively distributed in most regions of the world. Fenugreek is an annual plant from the family of papilionaceae, leguminosae. Fenugreek leaves and seeds have been used extensively to prepare extracts and powders for medicinal uses. Its root, leaf and seed contain a number of important medicinal compounds such as polysaccharide, galactomannan, different saponins such as diosgenin, yamogenin, mucilage, volatile oil and alkaloids such as choline and trigonelline. Plant tissue culture is fundamental to most aspects of biotechnology of plants. Establishment of an efficient callus induction and direct regeneration protocol is an essential prerequisite in harnessing the advantage of cell and tissue culture for genetic improvement. For the successful application of the tissue culture technique in plant breeding, callus induction and plant regeneration potential of each plant must be determined. The present study was performed in order to determine the optimum concentration of plant growth regulators (IBA + TDZ) for producing of in vitro plantlet using cotyledon and hypocotyl as an explant for two different Iranian genotypes (Ardestani and Neyshabouri).
Materials and Methods: In this investigation, Ardestani and Neyshabouri genotypes were used for callus induction and direct shoot regeneration. The medium used in this investigation was MS (Murashige and Skoog) basal medium. Then seeds were germinated on MS medium. For callus induction and direct shoot regeneration, cotyledon and hypocotyl explants were excised from 8-day-old sterile seedlings and cultured on MS medium containing various concentrations of IBA and TDZ. In this experiment, two combinations (TDZ + IBA) were used. In the first composition, IBA had four levels (0, 0.1, 0.3, 0.5 mg l-1) and TDZ had five levels (0, 0.2, 0.4, 0.6, 0.8 mg l-1) and in the second composition, IBA had four levels (0, 0.05, 0.1, 0.15 mg l-1) and TDZ had seven levels (0, 0.2, 0.25, 0.3, 0.35, 0.4, 0.45 mg l-1).The experimental designs were factorial based on completely randomized design with four replications. Cultures were incubated at 25° C ± 2 with a 16/8 hour (day/night) photoperiod and an irradiance of 1500 LUX using Sylvania cool white fluorescent tubes. The percentage of callus induction, direct shoot regeneration and average weight of callus were calculated for cotyledon and hypocotyl explants. All Data were analyzed using SPSS16, and mean comparisons were performed with duncan’s multiple range test (P < 0.05).
Results and Discussion: According to our results, explants cultured on MS basal medium without plant growth regulators (control) produced no callus. However, after two weeks, callus formed in both of Ardestani and Neyshabouri genotypes from cotyledon and hypocotyl explants in the presence of IBA + TDZ plant growth regulators in most of the combinations. In hypocotyl explants of Neyshabouri genotype, the highest callus induction was obtained from the medium containing 0.15 mg l-1 IBA + 0.45 mg l-1 TDZ (96.87%). Various important factors such as genotype, source of explants and plant growth regulators significantly influence direct regeneration. Direct regeneration was obtained from hypocotyl explants for Neyshabouri genotype in combination IBA + TDZ. The highest percentage of direct shoot regeneration was observed in MS medium containing 0.05 mg l-1 IBA + 0.35 mg l-1 TDZ in hypocotyl explants of Neyshabouri genotype (37.5%). Direct shoot regeneration requires plant cells to undergo dedifferentiation which is known to be affected by not only exogenous plant growth regulators but also endogenous content of the hormones. Different tissues may have different levels of endogenous hormones and, therefore, the type of explant source would have a critical impact on the regeneration success. In our study, when cotyledon and hypocotyl explants were compared, it was clear that hypocotyl explants were much more productive for direct shoot regeneration than cotyledon explants.
Conclusions: Callus induction and direct shoot regeneration are as in vitro tissue culture methods. Plant growth regulators and types of explant and genotype are the most important factors for callus induction and direct shoot regeneration phases. Therefore, optimization of these factors is essential to establish a high frequency of callus induction, direct shoot regeneration and gene transferring to this plant. According to the results of this investigation, it is recommended to apply plant growth regulators that were used in this study for other landraces of fenugreek cultured in Iran and select the best genotypes in response to tissue culture conditions for using in future studies.

کلیدواژه‌ها [English]

  • Cotyledon
  • Explants
  • Hypocotyl
  • Leguminosae
  • Medium
مراجع
1- Aasim M., Hussain N., Umer E.M., Zubair M., Hussain S.B., Saeed S.H., Rafique T.S., and Sancak C. 2010. In-vitro shoot regeneration of fenugreek (Trigonellafoenum-graecum L.) using different cytokinins. African Journal of Biotechnology, 42: 7174-7179.
2- Afshari E., Ranjbar G.A., Kazemitabar S.K., Riasat M., and Kazemi H. 2011. Callus induction, somatic embryogenesis and plant regeneration in fenugreek (Trigonellafoenum-graecum L.). Iranian Journal of Medicinal and Aromatic Plants, 27(1):147-160. (In Persian with English abstract)
3- Apte S.S., Kokate C.K., and Rambhau D. 1987. Relation between electro kinetic potentials and growth in callus cultures of Trigonellafoenum-graecum. Journal of Biosciences, 12(4): 393-397.
4- Bhaskaran S., and Smith R.H. 1990. Regeneration in cereal tissue cultural. Crop Sciences, 30: 1329-1336.
5- Chhibba I.M., Nayyar V.K., Kanwar J.S. 2007. Influence of mode and source of applied iron on fenugreek (Trigonellacorniculata L.) in a typicustochrept in punjab, India. African Journal of Biotechnology, 9: 254-256.
6- Han Y., Jin X., Wu F., and Zhang G. 2011. Genotypic differences in callus induction and plant regeneration from mature embryos of barley, Hordeumvulgare L. Journal of Zhejiang University Science, 5: 399-407.
7- Hutchinson M.J., and Saxena P.K. 1996. Acetylsalicylic acid enhances and synchronizes thidiazuron-induced somatic embryogenesis in geranium tissue culture. Plant Cell Reproduction, 15: 512-515.
8- Khan M.B., Khan M.A., and Sheikh M. 2005. Effect of phosphorus levels on growth and yield of fenugreek. African Journal of Biotechnology, 7: 504-507.
9- Khawar K.M., Gulbitti- Onarici S., Coecue S., Erisen S., Sancak C., and Ozcan S. 2004. In vitro crown galls induced by Agrobacterium tumefaciens strain A281 (pTiBo542) in Trigonellafoenum-graecum. Biologia Plant arum, 48(3):441-444.
10- Lu D.Y., Davey M.R., and Cooking E.C. 1982. Somatic embryogenesis from mesophyll protoplasts of Trigonella corniculata (leguminosae). Plant Cell Reports, 1(6):278-280.
11- Magyar-Tabori K., Dobranszki J., Teixeira da., and Silva, JA. 2010. The role of cytokinins in shoot organogenesis in apple. Plant Cell Tissue culture, 101: 251-267
12- Niknam V., Razavi N., Ebrahimzadeh H., and Sharifizadeh B. 2006. Effect of Nacl on biomass, protein and proline contents and antioxidant enzymes in seedling and calli of two Trigonella species. Biologia Plant arum, 50(4): 591-596.
13- Oncina R., DelRio J.A, Gomez P., and Ortuno A. 2000. Bioproduction of diosgenin in callus cultures of Trigonella foenum-graecum. Journal of food Chemistry, 70(4): 489-492
14- Pattnaik S., and Chand P.K. 1996. In vitro propagation of the medicinal herbs Ocimum americanum L. syn. O. canum Sims. (hoary basil) and Ocimum sanctum L. (holy basil). Plant Cell Reproduction, 15: 846-850.
15- Provorov N.A., Soskov Y.D., Lutova L.A., Sokolova O.A., and Bairamov S.S. 1996. Investigation of the fenugreek genotypes for fresh weight, seed productivity, symbiotic activity, callus formation and accumulation of steroids. Euphytica, 88(2): 129-138.
16- Rezaeian SH., Lahoty M., and Mahmoodzadeh H. 2010. Investigation of different concentrations of 2,4-D and light conditions on in-vitro callus induction of fenugreek (Trigonella foenum-graecum L.). Quarterly Biological Sciences Islamic Azad University, 3(3):107-114. (in Persian)
17-Tripathi L., and Tripath J.N. 2003. Role of biotechnology in medicinal plants. Tropical Journal of Pharmaceutical Research, 2: 243-253.
18- Zargari A. 1989. Medicinal plants.Tehran university press.pp: 176. (in persion)
ارسال نظر در مورد این مقاله
CAPTCHA Image
علوم باغبانی
دوره 31، شماره 1 - شماره پیاپی 1
خرداد 1396
صفحه 180-189
فایل ها
سابقه مقاله
  • تاریخ دریافت: 27 مرداد 1394
  • تاریخ پذیرش: 27 مرداد 1394
  • تاریخ اولین انتشار: 01 خرداد 1396
هم رسانی
ارجاع به این مقاله
آمار