He became interested in plant growth conditions prior to photosynthesis measurements with either

intact plants or isolated chloroplasts. One of his research papers from the Temple University showed that growth conditions of the plant resulted in differences in enhancement of photophosphorylation by CO2 (Punnett 1965). This experiment set his research direction for the next few years. He soon presented his paper on LY3023414 in vitro isolation of non-granular chloroplasts from higher plants (Punnett 1966). Tom started to work again with C. pyrenoidosa to study the changes in development and photosynthesis that occur during the life cycle of this alga. Punnett and Derrenbacker (1966) described the aminoacid composition of algal cell walls. He and one of us (Hagar) developed synchronization techniques to have most of the cultured cells complete their life cycle in 24 h; thus, they were able to look at developmental stages a few hours apart and to monitor the in vivo changes in pigment protein compositions while they measured photosynthetic rates of the cell culture. They also described the synchronization process and the unique use of Probit Analysis to better follow and characterize cell synchrony (Hagar and Punnett 1973). During this time, Tom also focused on the aquarium plant, Elodea, to investigate the relationship

between in vivo and in vitro measurements. He was especially intrigued with literature reports of granular or homogenous chloroplasts and the isolation of such “intact” chloroplasts (Sager and Palade

1956). He found that pretreatment of Elodea with red or blue light would cause a change in the buy Gemcitabine observable chloroplast structure. With red light, he could push the plant into a more homogeneous state where granular stacks could not be observed. He developed the methodology Methisazone to isolate chloroplasts with visible grana stacks. Punnett et al. (1981) reported that chloroplasts undergo rapid rearrangements in vivo. By this time it was known that there were two photosystems connected by an electron transport chain. Tom found that the Emerson Enhancement effect was not observed under conditions when the two photosystems are well balanced; the effect is seen only when there is an unbalanced excitation of the systems (Punnett 1970). This is a very click here important observation because lack of Emerson Enhancement must never be taken as evidence of the absence of two light reactions and two photosystems. Tom extended the work on Elodea to demonstrate that the sensitivity of chloroplast structure to environmental conditions, as observed by both light and electron microscopy, was also present in terrestrial plants (Punnett and Kelly 1975, 1976). This transformation was achieved with plants from nine different genera, including both monocotyledonous and dicotyledonous plants with either Kranz or conventional leaf anatomy.