Effects of plant growth regulators on callogenesis and embryogenesis in sarnav and desiree potato (Solanum tuberosum L.) varieties

Somatic embryos play a pivotal role in the production of high-quality potatoes and seed breeding. This study focused on determining the concentrations of 1-naphthaleneacetic acid (NAA) and 6-benzyl amino purine (BAP) in the formation of callus tissue and callus induction. Our goal was to assess the efficiency of potato explants with the highest potential for somatic embryo production. To achieve this, we cultivated Sarnav and Desiree potato varieties under in vitro tissue culture conditions, utilizing the obtained tissue cultures for subsequent experiments. The MS nutrient media were enriched with NAA and BAP at ratios of 1.5: 1, 1: 1.5, and 1: 1 mg/L, along with NAA concentrations of 1.5, 1, or 2 mg/L. Somatic embryogenesis experiments were conducted using various MS nutrient media, enriched with BAP and GA3 at concentrations of 1: 0.5, 0.4: 0.1, 0.5: 0.2, and 0.1: 0.1 mg/L of plant growth regulators. During the course of the study, diverse callus formations were observed in both leaf and internodal stem explants. Among the nutrient media, the M2 medium enriched with 1: 1.5 mg/L of NAA and BAP yielded the highest callus formation rates: 92% for the Desiree variety and 100% for the Sarnav variety, specifically in internodal stem explants. Notably, the index of embryo formation in leaf explants selected for somatic embryogenesis within the SE4 medium was 70% for the Sarnav variety and 65% for the Desiree variety. The inclusion of BAP and GA3 at a ratio of 0.1: 0.1 mg/l in the SE4 nutrient medium resulted in somatic embryogenesis in 80% of calli for the Sarnav variety and 78% for the Desiree variety. These findings underscore the potential for regenerating plants through somatic embryogenesis in the Sarnav potato variety, a significant development with implications for genetic transformation studies involving this particular variety

Improvement of callogenesis and somatic embryogenesis by selecting optimal hormonal balance in Sarnav and Desiree potato varieties

Callus formation and somatic embryogenesis in potato varieties are effective ways to obtain an entire plant from a single cell. The implementation of embryogenesis is widely used in improving plant materials and creating new biotechnological varieties. In our research, the optimum level of 1-naphthaleneacetic acid (NAA) and 6-benzyl aminopurine (BAP) was determined in the formation of callus tissue in the local Sarnav potato variety, and the Desiree variety taken as a control. Leaf and stem explants were used in the processes of callus tissue formation and somatic embryogenesis of both varieties. We tried various plant growth regulators for callus formation and somatic embryogenesis in different ratios. The 1 mg/L NAA and 1.5 mg/L BAP were established as the best option for callus formation resulting in 92 and 100% development of callus in internodes of Desiree and Sarnav varieties, respectively. The 0.1 mg/L BAP and 0.1 mg/L gibberellic acid (GA3) resulted in almost 80% development of somatic embryogenesis in both varieties and were found as the most optimum option. These results showed that regenerated plants can be obtained from the Sarnav potato variety by somatic embryogenesis. This method can be applied to the Sarnav variety for genetic transformation studies