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Euro Biotechnology 2016
November 07-09, 2016
Volume 6, Issue 7(Suppl)
J Biotechnol Biomater
ISSN: 2155-952X JBTBM, an open access journal
conferenceseries
.com
November 07-09, 2016 Alicante, Spain
12
th
Euro Biotechnology Congress
M N Shiva Kameshwari, J Biotechnol Biomater 2016, 6:7(Suppl)
http://dx.doi.org/10.4172/2155-952X.C1.064Genome size in
Urginea
species (Hyacinthaceae)
M N Shiva Kameshwari
Bangalore University, India
T
he species of
Urginea
such as
U. indica
,
U. wightii
and
U. polyphylla
are known for phenotypic and genotypic plasticity. The
2C values of
Urginea
indica in 5 accessions include 3 diploids with 2n=20, one tetraploid 2n=40 and a pentaploid 2n=50.
In U. wightii 3 accessions with 2n=20 diploid, one Aneuploid 2n=36 and one mixoploid with diploid and tetraploid 2n=20
and 40. In
U. polyphylla
2n=54 have been detected. Intraspecific variations have been noticed in the genome size is significant.
In diploids the highest C value (1C=45.78 pg) being found in the accession-846 lowest (1C=27.7 pg) in accession-843, an
intermediate one (1C=38.45 pg in accession-835. In Tetraploid (1C=51.53 pg) accession-840 while in pentaploids (1C=38.91
pg) accession-842. In
U. wightii
complex diploids with 1C=49.24 pg which is highest accession-839 and in myxoploid 1C=38.49
pg in accession-848 and anueploid 1C=37.56 pg) accession-825 were reported and the factors contributing to such variations
in genome size are discussed.
Biography
M N Shiva Kameshwari has consistently good academic record with PhD from University of Mysore, India. She has been actively investigating on medicinal
plants, particularly on
Urginea
species found in India by employing the state of the art research methods to resolve the genetic diversity and its implications on
conservation. She is the recipient of many awards for her research contributions and has over 50 research publications. She is a permanent Faculty Member in the
Department of Botany, Bangalore University, India.
mn.shivakameshwari@gmail.com