تاثیر گزینش ژن Ppd-D1a و زودسنبله‌‌دهی بر صفات مهم زراعی گندم نان (Triticum aestivum L.)

نوع مقاله : مقاله پژوهشی

نویسندگان

1 زراعت و اصلاح نباتات، دانشگاه شهید باهنر کرمان

2 زراعت و اصلاح نباتات- دانشکده کشاورزی- دانشگاه شهید باهنر کرمان

3 کرمان عضو هیات علمی دانشگاه شهید باهنر کرمان

چکیده

هدف: ژن‌‌­های کنترل‌‌­کننده فتوپریود (Ppd) مهم‌­ترین گروه ژنی کنترل‌‌­‌کننده زودرسی در گندم نان هستند. هدف این پژوهش بررسی این ژن­‌ها در ارقام ایرانی و بررسی نقش Ppd-D1a در زودرسی بود.
مواد و روش­‌ها: زودرسی با استفاده از تلاقی برگشتی از اکسکلیبر به رقم­‌های کل‌حیدری، روشن و مهدوی منتقل و نسل BC1F3 ایجاد شد. ژن­‌های کنترل‌­کننده فتوپریود Ppd-A1، Ppd-B1 و Ppd-D1 در ارقام ایرانی با استفاده از آغازگر‌های اختصاصی بررسی شد. با استفاده از آنالیز تفرق بالک مکان ژنی Ppd-D1 در نتاج زودرس سه جمعیت بررسی گردید. با ارزیابی دوساله در مزرعه، تاثیر گزینش برای زودرسی بر صفات مهم زراعی گندم نان بررسی شد.
نتایج: ارقام مهدوی، قدس، کل­‌حیدری، سرداری، روشن، کویر، اکسکلیبر و شاه‌­پسند داری ژن‌­های Ppd-A1b و Ppd-B1b بودند. کل­‌حیدری، سرداری، روشن و کویر آلل Ppd-D1b و مهدوی، قدس، اکسکلیبر و شاه‌­پسند آلل Ppd-D1a را دارا بودند. ارزیابی بالک 10% از زودسنبله­‌ده‌­ترین نتاج نسل BC1F3 جمعیت‌­ها نشان داد همه نتاج زودرس دارای ژن Ppd-D1a بودند. زودسنبله‌­دهی و زودرسی همبستگی مثبت و معنی‌­داری داشتند. با این وجود، تعداد روز تا سنبله­‌دهی با طول دوره پر‌شدن دانه همبستگی منفی و معنی­‌داری داشت، که باعث افزایش وزن هزار دانه، تعداد دانه در بوته و عملکرد دانه شد. گزینش برای زود‌سنبله­‌دهی باعث افزایش ارتفاع بوته، اندازه برگ، تعداد سنبله در بوته، تعداد دانه در بوته، وزن هزار دانه و عملکرد دانه و کاهش طول سنبله، طول ریشک و تعداد پنجه­‌های نابارور شد.
نتیجه گیری: گزینش به کمک نشانگر و یا تلاقی برگشتی به کمک نشانگر برای ژن Ppd-D1a می‌­تواند باعث زودرسی گندم نان شود. گزینش برای زود‌سنبله‌­دهی باعث بهبود این صفت در زمینه ژنتیکی روشن، کل‌‌­حیدری و مهدوی به ترتیب به مدت 13، 14 و 10 روز شد. در شرایط کرمان، گزینش برای زودرسی باعث بهبود اکثر صفات مهم تاثیر‌‌گذار بر عملکرد شد.

کلیدواژه‌ها


عنوان مقاله [English]

Effect of selection for Ppd-D1a gene and early heading on important agronomic trait of bread wheat (Triticum aestivum L.)

نویسندگان [English]

  • Shahrzad Froudisefat 1
  • Roohollah Abdolshahi 2
  • Mehdi Mohayeji 3
1 Department of agronomy and plant breeding, Shahid Bahonar University of Kerman
2 Shahid Bahonar University of Kerman
3 Dept. of Agronomy and Plant Breeding, Faculty of Agriculture, Shahid Bahonar University of Kerman
چکیده [English]

Objective
 Photoperiod controlling genes (Ppd) are the most important genes groups that modify early heading in bread wheat. The aim of this research was to evaluate Ppd genes in Iranian cultivars, and also assessing the effect of Ppd-D1a on earliness trait.
 
Material and methods
 Earliness was transferred from Excalibur to Kalhaydari, Roshan and Mahdavi cultivars using backcross method to generate BC1F3 generation. Three photoperiod controlling genes including Ppd-A1, Ppd-B1 and Ppd-D1 were assessed in Iranian cultivars using PCR by specific primers. Bulk segregation analysis of Ppd-D1 loci was done for early heading genotypes in three populations. Two years field evaluation were conducted to show the effect of selection for earliness on important agronomic traits of bread wheat.
 
Results
 Mahdavi, Ghods, Kalhaydari, Sardari, Roshan, Kavir, Excalibur and Shahpasand were containing Ppd-A1b and Ppd-B1b. Kalhaydari, Sardari, Roshan and Kavir were containing Ppd-D1b, while Mahdavi, Ghods, Excalibur and Shahpasand were possessed Ppd-D1a. Bulk segregation analysis of 10% of the earliest heading BC1F3 populations showed that early heading progenies were possessing Ppd-D1a. Positive significant correlation was observed between early heading and earliness. Meanwhile, days to heading had a negative correlation with grain filling period. Longer grain filling period improved 1000-grain weight, grain number per plant and grain yield. Selection for early heading improved plant height, leaf size, spike number per plant, seed number per plant, 1000-grain weight and grain yield, while decreased spike length, awn length and infertile tiller number.
 
Conclusions
 Marker assisted selection or marker assisted backcross of Ppd-D1a gene could improve earliness in bread wheat. Early heading was improved in Roshan, Kalhaydari and Mahdavi background for 13, 14 and 1o days, respectively. Selection for early heading improved the most important grain yield related agronomic traits in Kerman condition. 

کلیدواژه‌ها [English]

  • Earliness
  • photoperiod genes (Ppd)
  • grain filling period
  • correspondence response
 
درانی‌نژاد مریم؛ عبدالشاهی روح اله؛ کاظمی‌پور علی؛ مقصودی مود علی اکبر (1398) تاثیر زودسنبله‌‌دهی بر عملکرد و اجزای  عملکرد در سه زمینه ژنتیکی متفاوت گندم نان ایرانی. نشریه زراعت دیم ایران، جلد 8: صفحات 141-152.
نظری محسن؛ ایزانلو علی؛ قادری محمد قادر؛ علیزاده زهره (1395) بررسی تنوع آللی ژن‌های VRN1 و Ppd1 در ارقام مختلف گندم نان. مجله بیوتکنولوژی کشاورزی، دوره 8 صفحات 111-124.
 References
Abdolshahi R, Nazari M, Safarian A et al. (2015) Integrated selection criteria for drought   tolerance in wheat (Triticum aestivum L.) breeding programs using discriminant analysis. Field Crops Res 174, 20-29.
Abdolshahi R, Safarian A, Nazari M et al. (2013) Screening drought-tolerant genotypes in bread wheat (Triticum Aestivum L.) using different multivariate methods. Arch. Agron. Soil Sci. 59, 685-704.
Addisu M, Snape JW, Simmonds JR, Gooding MJ (2008) Reduced height (Rht) and photoperiod insensitivity (Ppd) allele associations with establishment and early growth of wheat in contrasting production systems. Euphytica 166, 249-267.
Austin R, Edrich J, Ford M, Balkwell R (1977) The fate of the dry matter carbohydrates and 14C lost from the leaves and stems of wheat during grain filling. Ann. Bot. 41, 1309-1321.
Beales J, Turner A, Griffiths S et al. (2007) A Pseudo-Response Regulator is misexpressed in the photoperiod insensitive Ppd-D1a mutant of wheat (Triticum aestivum L.). Theor. Appl. Genet 115, 721-733.
Bodner G, Nakhforoosh A, Kaul HP (2015) Management of crop water under drought: a review. Agron. Sustain. Dev. 35, 401-442.
Chen X, Donghong M, Yasir TA, Hu YG (2012) Evaluation of 14 morphological, yield-related and physiological traits as indicators of drought tolerance in Chinese winter bread wheat revealed by analysis of the membership function value of drought tolerance (MFVD). Field Crop. Res. 137, 195-201.
Dorrani-Nejad M, Abdoshahi R, Kazemi Pour A, Maghsoudi Moud AK (2019) Effect of early heading on yield and yield components of three Iranian wheat genetic backgrounds. Rainfed Agric Iran 8, 141-152 (In Persian).
Ellis MH, Bonnett DG, Rebetzke GJ (2007) A 192bp allele at the Xgwm261 locus is not always associated with the Rht8 dwarfing gene in wheat (Triticum aestivum L.). Euphytica 157, 209-214.
Ellis MH, Spielmeyer W, Gale KR, Rebetzke GJ, Richards RA (2002) “Perfect” markers for the Rht-B1b and Rht-D1b dwarfing genes in wheat. Theor. Appl. Genet. 105, 1038-1042.
Falconer DS, Mackay TFC (1996) Introduction to quantitative genetics. 4th ed. Longman, London.
Fletcher A, Ogden G, Sharma D (2019) Mixing it up – wheat cultivar mixtures can increase yield and buffer the risk of flowering too early or too late. Eur J Agron 103, 90-97.
Fletcher AL, Robertson MJ, Abrecht DG et al. (2015) Dry sowing increases farm level wheat yields but not production risks in a Mediterranean environment. Agric. Syst. 136, 114-124.
Flhor BM, Hunt JR, Kirkegaard JA et al. (2018) Fast winter wheat phenology can stabilise flowering date and maximise grain yield in semi-arid Mediterranean and temperate environments. Field Crops Res 223, 12-25.
Hill CB, Li C (2016) Genetic architecture of flowering phenology in cereals and opportunities for crop improvement. Front. Plant Sci. 7,1906.
Ihsan MZ, El-Nakhlawy FS, Ismai SM et al. (2016) Wheat phenological development and growth studies as affected by drought and late season high temperature stress under arid environment. Front. Plant Sci. 7,795.
Iqbal M, Navabi A, Salmon DF  et al. (2007) Genetic analysis of flowering and maturity time in high latitude spring wheat: genetic analysis of earliness in spring wheat. Euphytica 154, 207-218.
Isidro J, Álvaro F, Royo C et al. (2011) Changes in duration of developmental phases of durum wheat caused by breeding in Spain and Italy during the 20th century and its impact on yield. Ann. Bot. 107, 1355-1366.
Joudi M, Ahmadi A, Mohammadi V, Abbasi A, Mohammadi H (2014) Genetic changes in agronomic and phenologic traits of Iranian wheat cultivars grown in different environmental conditions. Euphytica 196, 237-249.
Kamran A, Iqbal M, Spaner D (2014) Flowering time in wheat (Triticum aestivum L.): a key factor for global adaptability. Euphytica 197, 1-26.
Langer SM, Longin CF, Würschum T (2014) Flowering time control in European winter wheat. Front Plant Scie. 5, 1-11.
Liu B, Asseng S, Müller C et al. (2016) Similar estimates of temperature impacts on global wheat yield by three independent methods. Nat. Clim. Change 6, 1130-1136.
Lopes MS, Reynolds MP, Jalal-Kamali MR et al. (2012) The yield correlations of selectable physiological traits in a population of advanced spring wheat lines grown in warm and drought environments. Field Crop. Res. 128, 129-136.
Loss SP, Siddique KHM (1994) Morphological and physiological traits associated with wheat yield increases in Mediterranean environments. Adv.Agric. 52, 229–276.
Mondal S, Singh RP, Crossa J et al. (2013) Earliness in wheat: a key to adaptation under terminal and continual high temperature stress in South Asia. Field Crops Res. 151,19-26.
Nazari M, Izanloo A, Ghaderi MGh, Alizade Z (2016) Evaluation of allelic diversity of VRN1 and Ppd1 genes in different bread wheat cultivars. Agric Biotechnol J 8, 111-124 (In Persian).
Nishida H, Yoshida T, Kawakami K et al. (2012) Structural variation in the 5′ upstream region of photoperiod-insensitive alleles Ppd-A1a and Ppd-B1a identified in hexaploid wheat (Triticum aestivum L.), and their effect on heading time. Mol. Plant Breed 31, 27-37.
Nitcher R, Pearce S, Tranquilli G et al. (2014) Effect of the Hope FT-B1 allele on wheat heading time and yield components. J. Hered. 105, 666- 675.
Radhika, Thind SK (2014) Comparative yield responses of wheat genotypes under sowing date mediated heat stress conditions on basis of different stress indices. Ind. J. Ecol. 41, 339-343.
Regan KL, Siddique KHM, Tennant D, Abrecht DG (1997) Grain yield and water use efficiency of early maturing wheat in low rainfall Mediterranean environments. Aust. J. Agric. Res. 48, 595-603.
Seki M, Chono M, Matsunaka H et al. (2011) Distribution of photoperiod-insensitive alleles Ppd-B1a and Ppd-D1a and their effect on heading time in Japanese wheat cultivars. Bree Sci, 61,405-412.
Seki M, Chono M, Nishimura Tet al. (2013) Distribution of photoperiod-insensitive allele Ppd-A1a and its effect on heading time in Japanese wheat cultivars. Bree Sci 63, 309-316.
Shavrukov Y, Kurishbayev A, Jatayev S et al.  (2017) Early Flowering as a Drought Escape Mechanism in Plants: How Can It Aid Wheat Production?. Front Plant Sci 8,1950.
Shcherban A, Borner A, Salina EA (2015) Effect of VRN-1 and PPD-D1 genes on heading time in European bread wheat cultivars. Plant Bree 134, 49-55.
Tanio M, Kato K, Ishikawa Net al. (2005) Genetic analysis of photoperiod response in wheat and its relation with the earliness of heading in the southwestern part of Japan. Bree Sci 55, 327-334.
Tuberosa R (2012) Phenotyping for drought tolerance of crops in the genomic era. Front Physiol 3, 1-26.
Turner NC (1986) Adaptation to water deficits: a changing perspective. Aust. J. Plant Physiol 13, 175-190.
Worland AJ (1996) The influence of flowering time genes on environmental adaptability in Europ wheats Euphytica 89,49-57.
Zhang YP, Uyemoto JK, Kirkpatrick BC (1998) A small-scale procedure for extracting nucleic acids from woody plants infected with various phytopathogens for PCR assay. J. Virol Meth 71, 45-50.
Zheng B, Chenu K, Chapman SC (2016) Velocity of temperature and flowering time in wheat – assisting breeders to keep pace with climate change. Global Change Biol 22, 921-933.
Zikhali M, Leverington-Waite M, Fish L, Simmonds J, Orford S, Wingen LU (2014) Validation of a 1DL earliness per se (eps) flowering QTL in bread wheat (Triticumaestivum). Mol Bree 34, 1023-1033.
Dorrani-Nejad M, Abdoshahi R, Kazemi Pour A, Maghsoudi Moud A(2020) Effect of early heading on yield and yield components of three Iranian wheat genetic backgrounds. Iranian J. Dryland Agric 8, 141-152.