摘要
This study has established an efficient and reproducible protocol to micropropagation Kaempferia angustifolia Roscoe via direct regeneration. The use of young shoots as explants showed the best results compared to rhizome shoots, where the young shoots showed a low percentage of contamination of 10% - 30% (agar 6 g/L) and 45% - 55% (agar 3 g/L), respectively, compared to the use of rhizome shoots, where the contamination rate exceeded 80%. For shoot initiation, the combination of BAP (6 Benzylaminopurine) and NAA (1-Naphthaleneacetic acid) showed higher results for the percentage of initial shoots and number of micro shoots/explants compared to BAP with Kin (Kinetin). The highest concentration of BAP (5 mg/L) combined with the lowest concentration of NAA (0.5 mg/L) resulted in 90% of initial shoots and a number of shoots/explants of 5.8. The highest number of shoots for micropropagation was in treatment with 30 g/L sucrose that was segmented with 3 mg/L BAP + 0.5 mg/L NAA. For the number of roots, the highest number of roots was 11.8 recorded at sucrose (45) with only BAP (1 mg/L) used as the plant growth regulator, while the longest length of roots was 7 - 8 cm, recorded both at sucrose with the combination of BAP and NAA.
This study has established an efficient and reproducible protocol to micropropagation Kaempferia angustifolia Roscoe via direct regeneration. The use of young shoots as explants showed the best results compared to rhizome shoots, where the young shoots showed a low percentage of contamination of 10% - 30% (agar 6 g/L) and 45% - 55% (agar 3 g/L), respectively, compared to the use of rhizome shoots, where the contamination rate exceeded 80%. For shoot initiation, the combination of BAP (6 Benzylaminopurine) and NAA (1-Naphthaleneacetic acid) showed higher results for the percentage of initial shoots and number of micro shoots/explants compared to BAP with Kin (Kinetin). The highest concentration of BAP (5 mg/L) combined with the lowest concentration of NAA (0.5 mg/L) resulted in 90% of initial shoots and a number of shoots/explants of 5.8. The highest number of shoots for micropropagation was in treatment with 30 g/L sucrose that was segmented with 3 mg/L BAP + 0.5 mg/L NAA. For the number of roots, the highest number of roots was 11.8 recorded at sucrose (45) with only BAP (1 mg/L) used as the plant growth regulator, while the longest length of roots was 7 - 8 cm, recorded both at sucrose with the combination of BAP and NAA.
作者
Zuraida Ab Rahman
Ayu Nazreena Othman
Mohd Norfaizal Ghazalli
Nur Auni Syazalien Adlan
Zuraida Ab Rahman;Ayu Nazreena Othman;Mohd Norfaizal Ghazalli;Nur Auni Syazalien Adlan(Biotechnology & Nanotechnology, Research Centre, MARDI HQ, Persiaran MARDI-UPM, Serdang Selangor, Malaysia;Agrobiodiversity & Environment Research Center, MARDI HQ, Persiaran MARDI-UPM, Serdang Selangor, Malaysia;Gambang Campus, Universiti Malaysia Pahang, Pahang, Malaysia)
