Effect of water deficit on total protein and protein profile in wheat (Triticum aestivum L.) genotypes

Abstract

Seed protein usually is not sensitive to environmental fluctuations; its banding pattern is very stable which advocated for cultivars identification purpose in crop. This study was planned to study effect of water deficit on protein content and protein banding pattern of wheat genotypes. In this study five wheat genotypes were planted in early November, growing season of 2008-2009. The experiment was carried out in a factorial design with three replications. Two water use levels (with and without irrigation) and five genotype of wheat (SABALAN/4/VRZ/3/OR F1.148/TDL//BLO, HAMAM-4, KAUZ'S'/MACHETE, Atila2/PBW65 and M-79-7) factorialed in plots as random. Proteins profiling of samples was performed using SDS- polyacryl amide gels. The results showed that, No effects Non irrigated treatments on protein banding patterns. Also, results indicated that not obvious any new band and not deleted any bands. Among the genotypes treatments HAMAM-4 genotype in Non irrigated condition had the highest seed protein and the KAUZ'S'/MACHETE genotype in irrigated condition had the lowest seed protein.

Authors and Affiliations

Reza Ashrafi Parchin| Young Researchers Club, Islamic Azad University, Science and Research Branch, Ardabil, Iran, Morad Shaban| Young researchers club, Boroujed branch, Islamic Azad University, Boroujerd, Iranو E-mail: Shaban.morad@yahoo.com

Keywords

Related Articles

Application of seed equilibrium moisture curves in agro physics

The water relations play a fundamental role in seed comprehension of biology. In order to describe the process of drying and the effect on water activity, which controls biological change in storage, a sound knowledge...

Classification and Evaluation of medicinal plant and medicinal properties of mastic

Mastic (Chatlanqosh or turpentine) is a valuable tree species in most parts of the country, particularly around the southern slopes of the Alborz and Zagros mountain range distributed. Wild Mastic tree is mainly due to...

Effects of Climate Change and Drought-Stress on Plant Physiology

Drought is still limited in most crops is produced. Morphological and physiological knowledge to improve drought resistance under drought conditions created problems important is the fact each of these genetic relation...

Effects Drought, Cytokinin and GA3 on Seedling Growth of Basil (Ocimum basilicum)

Priming is one of the seed enhancement methods that might be resulted in increased seed performance (germination and emergence), seedling growth and plant yield under stress conditions, such as salinity, temperature an...

Effects of Climate Change and Drought-Stress on Plant Physiology

Drought is still limited in most crops is produced. Morphological and physiological knowledge to improve drought resistance under drought conditions created problems important is the fact each of these genetic relation...

Download PDF file
  • EP ID EP13011
  • DOI -
  • Views 343
  • Downloads 14

How To Cite

Reza Ashrafi Parchin, Morad Shaban (2014). Effect of water deficit on total protein and protein profile in wheat (Triticum aestivum L.) genotypes. International journal of Advanced Biological and Biomedical Research, 2(2), 328-331. https://europub.co.uk/articles/-A-13011