Nancy A. Reichert

Organogenic regeneration of soybean from hypocotyl explants

SummaryThirteen soybean genotypes representing maturity groups IV−VI were compared for organogenic responses on three media cultured under two lighting conditions with hypocotyl sections excised from 7-d-old seedlings. All soybean lines responsed by producing adventitious shoots on the acropetal end of the hypocotyl explants, confirming genotype-independence of shoot initiation. Media containing 6-benzyladenine (BA; 5.0–10 μM) induced the greatest numbers of shoots. Histological studies confirmed the adventitious nature of arising shoots by indicative formation of meristematic zones and shoot primordia from parenchymatous tissues of central pith and plumular trace regions of the hypocotyl. Incompletely excised cotyledonary buds also contributed to shoot initiation. Degrees of responses were media-dependent and varied with regard to genotype. Centennial, Epps, and Lyon gave the greatest individual responses. Between cultivars (across all treatments), the regeneration potential (percentage of explants producing meristem-like structures or shoot primordia) 4 wk after initiation ranged from 47 to 75%. Four wk later, regenerative ability (number of shoots produced per responding explant) and regeneration efficiency (number of shoots produced per explant plated) yielded 1.4–7.1 and 1.0–5.0 shoots, respectively. The optimized protocol included initiation on a medium containing 5.0 μM BA for 4 wk, then transfer onto a shoot elongation medium (0.36 μM BA) for 4 wk. For 11 genotypes tested, 66–100% of excised shoots produced roots after 4 wk on media containing 12.5–29.2 μM indole-3-butyric acid. Of 109 regenerants transplanted to soil, 94% survived and no sterility has been observed on those mature enough to flower.

Adventitious organogenic regeneration from soybean genotypes representing nine maturity groups

In the US, soybean genotypes are classified into maturity groups (MG; total of 13) that represent areas of adaptation generally correlated with latitude bands. To determine if one regeneration procedure could regenerate representatives from diverse areas of adaptation, 18 soybean genotypes representing nine MG were compared for organogenic adventitious regeneration and plant formation from hypocotyl explants following the procedure previously tested on representatives from only three MG. Responding explants were those capable of producing shoots on the acropetal end of the explant from either the outer edge plus central region or the central region only. This enabled determination of the contribution of cotyledonary nodal tissue (outer edge) to shoot regeneration and by discounting those explants, it also enabled estimates of true adventitious regeneration. All 18 genotypes were capable of producing meristemoids/shoots solely from the central region with responses ranging from 28.5 to 64.3% after 4 weeks in culture. All genotypes were also capable of producing elongated shoots that could be successfully rooted. No morphological differences were noted among regenerants, or between them and seed-initiated plants. All regenerants produced viable seed which germinated and produced morphologically normal plants. This study confirmed the genotype- and MG-independent nature of this hypocotyl-based organogenic regeneration procedure and provided conservative estimates for responses that were truly/solely adventitious in nature.

Protoplast isolation, culture, and fusion protocols for kenaf (Hibiscus cannabinus)

Protoplast isolation and culture protocols were developed for ten cultivars of Hibiscus cannabinus L. (kenaf). Leaves from seedling lines maintained in vitro were used as donor tissues. Optimal cell wall digestions were achieved with a combination of cellulysin (1.0%) and macerase (0.5%). Average yields ranged from 0.9×105 to 5.9×106 protoplasts g fw-1 leaf tissue with viability estimates ranging from 53% to 87%. This protocol was ineffective for leaf tissue taken from plants grown in vivo. Protoplasts harvested from plantlets maintained in vitro produced rapidly growing calluses when plated in semi-solid medium after an initial culture in liquid medium. First cell divisions were observed within four to six days after initial culture in medium containing plant growth regulators 2,4-dichlorophenoxyacetic acid (1.4 μM) and kinetin (13.8 μM). An electrofusion protocol which did not significantly reduce protoplast viabilities was developed for kenaf protoplasts. The maximum fusion frequency (4.6%) was obtained with an electrofusion voltage of 2.0 kV cm-1.