The abbreviation M.B.Allen is used to indicate Mary Belle Allen as the author of the description and scientific classification of genera and species. (Consult
IPNI).[7][8]
Career
Mary Belle Allen was a daughter of
Frederick Madison Allen and Belle W. Allen. She had a sister, Dorothy Llewellyn Allen (later Flynn).[9]
Allen was accepted as a Ph.D. student of the University of California by
Sam Ruben in Berkeley.[12][13][14]
Allen is listed as an assistant at the Lawrence Radiation Laboratory at the University of California in Berkeley for 1941-42[2][15] and as a chemist for the
Manhattan District for 1942-44.[2] While working with Ruben, she used
radioactive tracers to study photosynthesis and chlorophyll.[4][16]
Following Sam Ruben's death in 1943, Allen transferred to
Columbia University.[12]
Allen received a DuPont fellowship for 1945-1946[2] and completed her Ph.D. in physical chemistry at Columbia University in 1946,[2][12] with a thesis on Phosphorus in Starch.[17]
In 1947, she became a research associate at
Mt. Sinai Hospital, New York.[18][2][12] The first part of this appointment occurred at
Hopkins Marine Station of
Stanford University,
California.[18] where "Dr. Mary Belle Allen" was listed as a "visiting Investigator" from Mt. Sinai Hospital, New York.[22]
Initial funding for the project came from biochemist Harry Sobotka at Mt. Sinai Hospital, who had received a grant from the
U.S. Public Health Service.[23] She was able to continue the work through Stanford with funding from the Office of Naval Research.[23]
At Hopkins Marine Station Allen worked with
C. B. van Niel on the physiology and biochemistry of
thermophiles, bacteria that can survive at high temperatures.[22][23]
In 1952, she reported that she had isolated an "unidentified unicellular alga" from the acid waters of "Lemonade Spring",
The Geysers,
Sonoma County, California. Later work suggested that it was similar to forms of Cyanidium caldarium independently discovered by Hiroyuki Hirose (1950),
Felix Eugen Fritsch (1945),[24] and Kenichiro Negoro (1935).[25]
Allen was also able to study
blue-green algae, publishing a "fundamental paper" on their cultivation in 1952.[4][26][27]
In 53 I came into a lab. where, in fact, three different people – Arnon, myself and Mary Belle Allen – had suddenly decided, from different points of view, that chloroplasts must be able to make ATP. ... So we actually set out to discover this.
A visiting student describes the type of procedure that was followed:[34]
Arnon had, you know, the white towels laid out all over the bench. Marybelle had the mortar and pestle and the acid-cleaned sand, and Andy and I were down there with the stuff ready to go. And Marybelle and Bob, the four of us, lined up when Arnon, in a pristine white coat and so forth, marched in with a tray full of spinach that had been kept in the cold room to be nice and crisp. And the procedure started. It was ceremonial, absolutely incredible. Marybelle and Bob dumped the leaves in the mortar and pestle, someone dumped the sand in, Arnon grabbed the pestle and ground the [spinach], they went to the right centrifuge with the right speed with the right head on it, spun down the cell debris, they got beautiful dark green colours -- pure chloroplasts.
Allen investigated
nitrogen fixing of
blue green algae and other microorganisms in both
freshwater and
oceans. She studied the growth of algae alongside rice as a way of enhancing the fertility of rice.[35]
As of 1956, she reported on the photosynthetic products of Chlamydomonas.[36] In January 1957 she was listed by the
Phycological Society of America as studying
plankton as an assistant research biochemist and lecturer in physiology in the Department of Soils and Plant Nutrition, University of California, Berkeley.[37]
In 1958, the
Kaiser Foundation Research Institute (Kaiser Permanente) formally established a Laboratory of Comparative Physiology and Morphology in
Richmond, California, for fundamental research in comparative biology.
Ellsworth C. Dougherty was named the director, and Mary Belle Allen was named the associate director.[38][39]
Using
spectrophotometry and other techniques, she continued to examine chlorophyll absorption[40] and to study algal phylogenesis.[4]
In 1960 she edited the published proceedings of the First Annual Symposium on Comparative Biology of the Kaiser Permanente Research Institute in Richmond.[41][4] Allen received funding from a number of sources including the
National Institute of Health in
Bethesda, Maryland.[4]
In 1962 she received the Darbaker Prize from the
Botanical Society of America "for outstanding contributions to
phycology".[1][42]
University of Alaska
In 1966 Allen was recruited as professor of microbiology at the
University of Alaska in
Fairbanks, Alaska. There she worked with the
Institute of Marine Science[43]
She studied high-latitude phytoplankton[44] and
chrysophyceae.[4][45]
To better understand populations of aquatic microorganisms in lakes in interior
Alaska, she studied bacteria in soil, which can wash into lakes. This research led to an unexpected result. She found that in many soil samples there were very few bacterial cells; some were comparable to sterilized soil.[46]
She did more than use the algae as models and tools for unravelling the intricacies of photosynthesis; in her studies and reviews, she skillfully bridged the biochemistry with the physiology and ecology of organisms, trying to integrate in a productive way laboratory and field studies.[4]
Allen, Mary Belle (1946). Phosphorus in Starch: Nature and reactions of starch phosphate. Enzymatic phosphorylation of starch and synthesis of amylopectin. New York: Columbia University.
Allen, M. B., ed. (1960). Comparative Biochemistry of Photoreactive Systems. New York: Academic Press.
Allen, M.B.; Goodwin, T. W.; Phagpolngarm, Samaravadi (1960). "Carotenoid Distribution in Certain Naturally Occurring Algae and in some Artificially Induced Mutants of Chlorella pyrenoidosa". Journal of General Microbiology. 23: 98–108.
CiteSeerX10.1.1.608.9033.
doi:
10.1099/00221287-23-1-93.
PMID13792770.
^
abc"Darbaker Prize". Botanical Society of America. Retrieved 13 October 2021.
^
abcdefghCattell, Jaques, ed. (1949).
"Allen, Dr. Mary Belle". American Men of Science: A Biographical Directory. Lancaster, Pennsylvania: The Science Press. p. 838.
^Brummitt, R. K.; Powell, C. E. (1992). Authors of plant names : a list of authors of scientific names of plants, with recommended standard forms of their names, including abbreviations. [London]: Royal Botanic Gardens, Kew. p. 24.
ISBN978-0-947643-44-7.
^Benson, A. A. (December 2, 2012).
"Tracers in biology". In Kaplan, Nathan; Robinson, Arthur (eds.). From Cyclotrons To Cytochromes: Essays in Molecular Biology and Chemistry. New York, London: Academic Press. p. 60.
ISBN9780323142052. Retrieved 13 October 2021.
^Norris, T. H.; Ruben, S.; Allen, M. B. (December 1942). "Tracer Studies with Radioactive Hydrogen. Some Experiments on Photosynthesis and Chlorophyll". Journal of the American Chemical Society. 64 (12): 3037–3040.
doi:
10.1021/ja01264a087.
^Allen, Mary Belle (1946). Phosphorus in Starch: Nature and reactions of starch phosphate. Enzymatic phosphorylation of starch and synthesis of amylopectin. New York: Columbia University.
^Fukuda, Ikujiro (1994).
"Chapter 10: Cyanidium investigations in Japan". In Seckbach, Joseph (ed.). Evolutionary pathways and enigmatic algae : Cyanidium caldarium (Rhodophyta) and related cells. Dordrecht: Kluwer Academic Publishers. pp. 153–156.
ISBN978-0-7923-2635-9. Retrieved 19 October 2021.
^Govindjee; Beatty, J. Thomas; Gest, Howard; Allen, John F. (July 15, 2006).
Discoveries in Photosynthesis. Advances in Photosynthesis and Respiration. Vol. 20. The Netherlands: Springer. p. 77.
ISBN978-1-4020-3323-0.