Colours are one of the significant

Colours are one of the significant visual properties of food and
colouring of foods has been an age old practice. This practice has
amplified many folds with the invention of synthetic colourants
principally due to their physical properties of good stability and
colouring ability (Pattnaik et al., 1997). Despite the fact that the
commercial market is ruled by the synthetic, even among the
permitted synthetic pigments, some of them may be toxic,
carcinogenic or may cause severe damage to vital organs (Duran et
al., 2002). Because of this, a strong interest in natural colouring
alternatives is needed. As compared to other available synthetic
pigments, natural pigments from microbial sources are potentially
good alternative ones.
Carotenoids are a group of coloured terpnoids with antioxidant
properties which are widespread in the plant and animal kingdoms,
as well in fungi and in photosynthetic and non-photosynthetic
microorganisms (Phadwal, 2005). Recently carotenoids are used
commercially as food colourants, animal feed supplement and, more
recently, for nutraceuticals, cosmetic and Pharmaceutical purposes
(Klein-Marcuschemer et al., 2007). In addition, carotenoids have
attracted superior attention as compared to synthetic pigments due to
the beneficial role on human health. Carotenoids can inhibit various
types of cancer and it enhances the immune response (Guerin et al.,
2003). These pigments are capable of quenching photo sensitizers;
interacting with singlet oxygen (Krinskyet al., 1994) and scavenging
proxy radicals (Conn et al., 1992). It also protects “life style –
related” diseases such as cardiovascular disease and age related
macular degeneration, due to their antioxidant activity and pro-vitamin A function (Steven et al., 2000). They play an important
role in protection of macular region of the retina and hence prevents
of cataracts and increases levels of iron absorption (Mares et al.,
2002).
In the present study, an attempt was made to isolate and characterize
yellow pigment producing bacterial strains for carotenoid
production and antioxidant activity. The 16s rDNA analysis showed
that the isolated strains are Exiguobacterium aurantiacumand
Exiguobacterium profundum. To the best of our knowledge, this is
the first report representing the carotenoid production from
Exiguobacterium aurantiacum and Exiguobacterium profundum