Ethyl methane sulfonate induced mutations in M2 generation and physiological variations in M1 generation of peppers (Capsicum annuum L.).

Mohamed H Arisha,Syed N M Shah,Hua Jing,Zhen-Hui Gong,Huai-Xia Zhang,Chao Li

doi:10.3389/fpls.2015.00399

Mohamed H Arisha, Syed N M Shah + Show 4 more

Open Access

https://doi.org/10.3389/fpls.2015.00399

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Abstract

This study was conducted to enhance genetic variability in peppers (Capsicum annuum, cv B12) using ethyl methanesulphonate (EMS). Exposure to an EMS concentration of 0.6%, v/v for 12 h was used to mutagenize 2000 seeds for the first generation (M1). It was observed that the growth behaviors including plant height, flowering date, and number of seeds per first fruit were different in the M1 generation than in wild type (WT) plants. In addition one phenotypic mutation (leaf shape and plant architecture) was observed during the M1 generation. During the seedling stage in the M2 generation, the observed changes were in the form of slow growth or chlorophyll defect (e.g., albino, pale green, and yellow seedlings). At maturity, there were three kinds of phenotypic mutations observed in three different families of the mutant population. The first observed change was a plant with yellow leaf color, and the leaves of this mutant plant contained 62.19% less chlorophyll a and 64.06% less chlorophyll b as compared to the wild-type. The second mutation resulted in one dwarf plant with a very short stature (6 cm), compact internodes and the leaves and stem were rough and thick. The third type of mutation occurred in four plants and resulted in the leaves of these plants being very thick and longer than those of WT plants. Furthermore, anatomical observations of the leaf blade section of this mutant plant type contained more xylem and collenchyma tissue in the leaf midrib of the mutant plant than WT. In addition, its leaf blade contained thicker palisade and spongy tissue than the WT.

Highlights

Peppers (Capsicum annuum L.) are one of the most cultivated vegetable crops in tropical and subtropical regions
The time to flowering in 0.97% of the mutant population was earlier than 70 days after sowing (DAS), 19.31% of plants flowered at 70–80 DAS, 50% flowered at 81–100 DAS, 28.65% flowered at 101–120 DAS, and 1.07% of plants flowered very late
In the present investigation the growth behaviors of the mutant population exhibited changes in the above-mentioned characters as compared to the wild type (WT) population. This might be due to the biological damage of the embryo as induced by ethyl methanesulphonate (EMS), and this in turn reflected on the plant growth behavior until maturity (Arisha et al, 2014)

Summary

Introduction

Peppers (Capsicum annuum L.) are one of the most cultivated vegetable crops in tropical and subtropical regions. Inducing mutations in peppers is important for pepper breeding and crop improvement (Bosland and Votava, 2012). EMS, as a chemical mutagen, can be used as a supplementary approach to improve desired identifiable characters such as yield. EMS induced mutations in peppers related characters (Botticella et al, 2011). It produces random point mutations in genetic material. Mutation frequency, detected using various techniques, displays a wide range of variation according the EMS treatment conditions. Determination of LD50 is necessary to produce a high frequency of desirable mutations (Hohmann et al, 2005; Arisha et al, 2014)

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