Usually when making decisions like this I just quickly plot the different channels and color spaces and see what I find. It is always better to start with a high quality image than to start with a low one and try to fix it with lots of processing
In this specific case I would use HSV. But unlike most color segmentation I would actually use the Saturation Channel to segment the images. The cells are nearly the same Hue so using the hue channel would be very difficult.
hue, (at full saturation and full brightness) very hard to differentiate cells
saturation huge contrast
Green channel, actually shows a lot of contrast as well (it surprised me)
the red and blue channels are hard to actually distinguish the cells.
Now that we have two candidate representations the saturation or the Green channel, we ask which is easier to work with? Since any HSV work involves us converting the RGB image, we can dismiss it, so the clear choice is to simply use the green channel of the RGB image for segmentation.
since you didn't include a language tag I would like to attach some Matlab code I just wrote. It displays an image in all 4 color spaces so you can quickly make an informed decision on which to use. It mimics matlabs Color Thresholder colorspace selection window
% displays an RGB image in 4 different color spaces. RGB, HSV, YCbCr,CIELab
% each of the 3 channels are shown for each colorspace
% the display mimcs the New matlab color thresholder window
hsvim = rgb2hsv(rgb_image);
yuvim = rgb2ycbcr(rgb_image);
cform = makecform('srgb2lab');
cieim = applycform(rgb_image,cform);
%ycbcr / yuv
you could call it like this
rgbim = imread('http://i.stack.imgur.com/gd62B.jpg');
and the display is this