Relatively inexpensive process to turn green cells of Haematococcus pluvialis into astaxanthin accumulating red cysts

Abstract

This invention discloses an innovative budgetary process on how to turn green cells of Haematococcus pluvialis into red cysts that contain the astaxanthin of the highest rate. With this finding, green motile cells are converted into dormant red cysts via addition of resting cysts into the culture with green cells. Transformation of green cells of Haematococcus pluvialis into red dormant cells with this invented method can be achieved without need of high-intensity light. Light intensity can be reduced for up 15 times to approach the similar results within the same time-period. The least concentration of 1% of red cysts to green culture supports the economically most approved run. Shaking of the cultures of green cells with added red cysts stimulates the transformation process. Inoculation of higher concentration of red cysts into green culture of Haematococcus pluvialis shorten the period of greens conversion into a biomass, enriched with astaxanthin.

Claims

1. Addition of red dormant cysts to green culture of Haematococcus pluvialis demonstrates stimulating effect to turn green di-flagellates into resting cells even under low light conditions (from 600 lum ft.sup.2 to 40 lum ft.sup.2) with the least ratio of 1:100 (dormant cysts : green cells of cells density 70.0*10.sup.3 L.sup.1) that requires similar period for green motile cells to convert into dormant cysts under high light stress. Shaking of the green cultures after addition of red cells stimulates transmission of motile di-flagellates into resting stage. Combination of high-intensity light (300-600 lum ft.sup.2) with inoculation of dormant cells in green culture reduces time-frame up to 2 times, and if to synchronize these together with shaking, it reduces period of greens transformation into dormant stage in up to 3 times.

Description

DRAWINGS

[0005] FIG. 1. Illustration of transformation of green cells of Haematococcus pluvialis into red dormant cysts under high light intensity (light intensity of 600 lum ft.sup.2).

[0006] FIG. 2. Illustration of transformation of green cells of Haematococcus pluvialis into dormant cells when red cysts are inoculated into green culture (ratio 1%) under low light intensity (light intensity of 40 lum ft.sup.2).

[0007] FIG. 3. Illustration of transformation of green cells of Haematococcus pluvialis into dormant cells when red cysts are inoculated into green culture (ratio 2%) under low light intensity (light intensity of 40 lum ft.sup.2).

[0008] FIG. 4. Illustration of transformation of green cells of Haematococcus pluvialis into dormant cells when red cysts are inoculated into green culture (ratio 10%) under low light intensity (light intensity of 40 lum ft.sup.2).

[0009] FIG. 5. Illustration of transformation of green cells ofHaematococcus pluvialis into dormant cells when red cysts are inoculated into green culture (ratio 20%) under low light intensity (light intensity of 40 lum ft.sup.2).