pathogen of humans. One of the majo

pathogen of humans. One of the major virulence factors is its ability to switch between yeast and filamentous form. C. albicans morphogenetic conversions are impor-tant for multiple aspects of C. albicans biology and pathogenicity. Environmental factors are vital for control of the morphology of C. albicans and a wide variety of environmental factors is responsible for this morpho-logical transition. Most important factors are the growth temperature of 37°C, neutral pH, growth medium, carbon starvation, low oxygen concentration and a wide range of chemicals including N-acetylglucosamine, proline (and other amino acids) and alcohols [32]. These individual or combinations of factors are responsible for the transition of C. albicans from yeast to filamentous form. The com-bined effect of temperature 37°C and a neutral pH have been observed in a number of past studies [41-43]. In the present work effect of growth medium, pH and tempera-ture is observed. The effect of pH was observed while keeping the temperature constant at 37°C. Similarly, the effect of temperature was observed while keeping the pH constant at 7.
The three growth media used for inducing filamenta-tion in C. albicans were Horse serum media, RPMI-1640 and Modified Sabouraud’s Glucose Broth (MSGB). These growth medium were tested for observing the ef-fect of nutrients on morphogenesis in C. albicans. The importance of nutrient factors that induce germ tube for- mation in C. albicans has been reported in previous pa- pers [44-47].
Horse serum, that is natural ingredients of hemin, hormones and other blood serum constituents, appeared to be necessary for germ tube formation and hence in-creased pathogenicity for most C. albicans strains [23, 45,48]. We observed noticeably increased filamentation in horse serum (Figure 1) about 52% after 4.5 hrs and this percentage of germ tube forming cells gradually de-creases from 7.5 to 10.5 hr (Table 1). RPMI-1640 me-dium containing high level of glucose (0.45%), high phosphate (6 g/L), amino acids and biotin reduces the ability of C. albicans that was isolated from oral cavity to form germ tube [39]. As C. albicans activate hyphal de-velopment in response to glucose, phosphate, amino ac-ids and biotin starvation [44,49,50]. On the other hand, results suggested moderate filamentation about 44% in RPMI-1640 medium after 4.5 hr of inoculation of culture. However, influence of amino acids and vitamins for ini-tiation of germ tube formation has been also reported in previous papers [45,49,51]. In another paper [39] it was also reported that C. albicans isolated from genitourinary tract show detectable filamentation in RPMI-1640 me-dium. Modified Sabouraud’s Glucose Broth (MSGB) was also used for germ tube formation in C. albicans. This media was use to observe response of C. albicans to lucose starvation [39]. Effect of glucose starvation on