RT Journal
T1 EFFECT OF GELLING MATRIX COMPOSITION, STORAGE CONDITIONS AND CAPSULE BREAKAGE ON GERMINATION OF ROSA INDICA SYNTHETIC SEEDS
A1 I. Gull
A1 A. Noreen
A1 M. S. Aslam
A1 Z. Abbas1
A1 M. A. Athar
JF Journal of Animal and Plant Sciences
JO JAPS
SN 1018-7081
VO 29
IS 1
SP 109
OP 116
YR 2019
FD 2019/02/01
DO DOI N/A
AB <p>Storage of germplasm using synthetic seed technology is useful to avoid somaclonal variations as well as to cut down the cost and labor of germplasm maintenance under&nbsp;<em>in vitro</em>&nbsp;culturing conditions. In the present study, different parameters that affect the viability and regrowth ability of&nbsp;<em>Rosa indica&nbsp;</em>germplasm stored as synthetic seeds were optimized. The compact, firm, transparent synthetic seeds showing maximum regeneration rate (100 %) were prepared and stored in three different types of air tight storage vessels (glass jars, polypropylene tubes and plastic bags) at 4 &deg;C and 25 &deg;C for various time durations (0-8 weeks). No significant difference in regeneration frequency of&nbsp;<em>Rosa indica&nbsp;</em>synthetic seeds was recorded at different storage conditions. However, the storage temperature significantly influenced the viability and regrowth ability of synthetic seeds. The survival rate (80%) of encapsulated explants was observed up to 8 weeks at 4 &deg;C and declined with elapse of storage duration. Facilitated extrusion of shoot from gel seed and pre-treatment of synthetic seeds with 100 mM KNO3for 5 minutes improved the regeneration frequency while mechanical removal of gel bead resulted in complete loss of explant viability.</p>
K1 synthetic seed, viability, Rosa indica, nodal segments
PB Pakistan Agricultural Scientists Forum
LK https://thejaps.org.pk/AbstractView.aspx?mid=Biot-16-0049