Abstract:
In vitro androgenesis and somatic embryogenesis are an essential tools for advance
biotechnological research for barley and other crops improvement. To evaluate the growth
and yield contributing characters six BARI barley and eight European genotypes were
considered for this study. The major goals of this study was to screen a suitable genotype;
optimization of media, plant growth regulators (PGRs), to evaluate the effect of salt and
heat pretreatment factors on regeneration; various concentrations of copper sulphate and
cobalt chloride added in medium to improve somatic embryogenesis. Various carbon
sources were also evaluated with MS and other medium and standardized silver nitrate and
amino acids concentration. Callus age and sizes were considered for their effects on plant
regeneration. Different physical pretreatment factors such as cold and drought stresses also
applied directly to the targeted explants (anthers, spikes) to improve anther culture
responses of barley in Bangladesh. To assess the performance of the genotypes, variability
and influence of sowing times on yield and yield contributing characters, six local and
eight European barley genotypes were considered. Among the studied genotypes BB-5
showed earliest booting (59 days) and the maturity was found after 101 days from the date of
sowing. Most yield contributing traits were found in Hor-9465, BB-5, Hor-291, Hor-9580
and BB-6 promising with good yield compared to other studied genotypes.
Six barley genotypes were tested and among them four (BB-6, BB-3, BB-1 and BB-2)
showed significant results on callus induced and regeneration. Twelve different
combinations of MS medium (CIM1 – CIM12) used for primary callus induction. It was
observed that CIM8 (4.0 mg/l 2,4-D, 200 mg/l L-proline and 300 mg/l casein) showed
better performance on callus induction (38.17%) in BB-6. Nine different concentrations of
plant growth regulators were used in MS medium and among them RM7 (MS + 1.5 mg/l
BAP + 30 g/l sucrose) showed better performance on plant regeneration in BB-6 (9.26%).
Another attempt was taken about heat pretreatment factor along with various concentration
of NaCl. For this experiment, mature embryos were used that derived from three barley
genotypes (BARI barley-3, BARI barley-6 and BHL-18). In this case BB-6 showed highest
viability on callus (14.72%) induction and regeneration (7.69%) with high concentrations of NaCl (6.5 g/l). With high amount of NaCl (6.5 g/l) BB-6 exhibited maximum relative
growth rate (0.91) and tolerance index (0.42) among the three studied genotypes. The
result revealed that calli of BHL-18 performed highest desiccation (59.70%) when it was
incubated at 40℃ and BB-6 gave the best regeneration (41.66%) when the calli incubated
at 35℃ temperature.
To evaluate the effect of copper sulphate and cobalt chloride in medium, mature embryos
of BARI barley-3 and BARI barley-6 were considered. The concentration of both
chemicals at 2.5 to 7.5 mg/l was suitable for callus induction. In the case of plant
regeneration T10 showed maximum plant regeneration (53.25%) in BARI barley-6 that was
around 3 fold higher in comparison with control. For another experiment seeds of BARI
barley-6 were pretreated with different concentrations of 2,4-D and various durations prior
to culture. The highest frequency of callus induction (71.38%) was recorded with 3.5 mg/l
2,4-D that pretreated up to 4 days. To optimize a suitable carbon sources for callus
induction various amount of sucrose, maltose and D-sorbitol were used either single or in
combination with three media. The maximum percentage of primary callus (89.16%) was
recorded in MS medium that supplemented with 60 g/l D-sorbitol (T6). For another
experiment various concentrations of PGRs were evaluated and the maximum
embryogenic calli (70.0%) obtained when 2,4-D (2.0 mg/l) + BAP (0.5 mg/l) were used.
Highest plant regeneration (47.40%) was recorded when the MS medium was
supplemented with 0.5 mg/l NAA + 1.0 mg/l BAP. For rooting GM showed better
performance in addition with 1.0 mg/l IAA.
In Exp. 6 (section 4.5) an efficient protocol has been established for callus induction and
regeneration. In this case AgNO3 and two different types of amino acids were used in
addition to the medium. As explants immature embryos were used that derived from three
genotypes viz. BB‐1, BB‐3 and BB‐6. Here five doses of AgNO3 either single or in
combination were used along with two amino acids (L-proline, L‐glutamine). The
maximum callus were recorded for BB‐6 (49.20%) and BB‐3 (32.66%) when 2.0 mg/l
AgNO3 and 200 mg/l L‐glutamine were added. Plant regeneration (37.20%) remarkably
increased on MS medium that supplemented with 1.0 mg/l BAP + 1.5 mg/l AgNO3 + 150
mg/l L‐glutamine in BB‐6. Other attempts (Exp. 7; section. 4.6) have been done using
callus size, age and their fresh weight to improve regeneration using mature embryos that
derived from immature embryos (milky phases of seeds) in BB-6. It was observed that
callusing and plant regeneration was better when 1.6-2.0 mm size of embryos, 4-6 weeks
old calli and 151-200 mg weight were used.
To identify a suitable androgenetic genotype two BARI barley cultivars (BB-3 and BB-6)
were used for anther culture. Under this study cold pretreatment for 8-12 days showed
better performance on embryos formation in FHG medium. The highest level of embryoids
(14.6%) was found at 10 days cold pretreatment and finally produced 13.8% plantlets and
10.72% green plants in BB-6. MSR medium showed better results on green plant
regeneration. Another attempt was done for drought stress pretreatment factors that applied
to the excised anthers of BB-3 and BB-6 (Expt. 9; section 5.2). It was observed that
drought stress for 150 min (T5) showed highest percentage of embryoids (26.50%) and
green plants (13.58%) in BB-6. For all cases the number of androgenic embryos and
regenerated green plants increased in liquid induction (FHG) medium. From these
experimental findings it might be concluded that the cold and drought stress pretreatment
factors enhanced anther culture responses. The protocol established under this study might
be helpful for future advance level of biotechnological research for barley and other cereal crops in Bangladesh.
Description:
This thesis is Submitted to the Institute of Biological Sciences (IBSc), University of Rajshahi, Rajshahi, Bangladesh for The Degree of Doctor of Philosophy (PhD)