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Gerald S. Pullman
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Soil solarization and thermal death: a logarithmic relationship between time and temperature for four soilborne plant pathogens.
GS Pullman, JE DeVay, RH Garber
Phytopathology 71 (9), 959-964, 1981
3241981
Soil solarization: effects on Verticillium wilt of cotton and soilborne populations of Verticillium dahliae, Pythium spp., Rhizoctonia solani, and Thielaviopsis basicola
GS Pullman, JE DeVay, RH Garber, AR Weinhold
Phytopathology 71 (9), 954-959, 1981
2181981
High-efficiency Agrobacterium-mediated transformation of Norway spruce (Picea abies) and loblolly pine (Pinus taeda)
A Richard Wenck, M Quinn, RW Whetten, G Pullman, R Sederoff
Plant Molecular Biology 39, 407-416, 1999
2061999
Forestry in the 21st Century
PK Gupta, G Pullman, R Timmis, M Kreitinger, WC Carlson, J Grob, ...
Bio/technology 11 (4), 454-459, 1993
1941993
The cellular and molecular biology of conifer embryogenesis
J Cairney, GS Pullman
New phytologist 176 (3), 511-536, 2007
1662007
Improving loblolly pine somatic embryo maturation: comparison of somatic and zygotic embryo morphology, germination, and gene expression
GS Pullman, S Johnson, G Peter, J Cairney, N Xu
Plant Cell Reports 21, 747-758, 2003
1662003
Brassinolide improves embryogenic tissue initiation in conifers and rice
GS Pullman, Y Zhang, BH Phan
Plant cell reports 22, 96-104, 2003
1292003
Genetic control of somatic embryogenesis initiation in loblolly pine and implications for breeding
JJ MacKay, MR Becwar, YS Park, JP Corderro, GS Pullman
Tree Genetics & Genomes 2, 1-9, 2006
1182006
Method for reproducing coniferous plants by somatic embryogenesis using abscisic acid and osmotic potential variation
PK Gupta, GS Pullman
US Patent 5,036,007, 1991
1141991
Method for reproducing coniferous plants by somatic embryogenesis using adsorbent materials in the development stage media
GS Pullman, PK Gupta
US Patent 5,034,326, 1991
1121991
Method for reproducing coniferous plants by somatic embryogenesis
PK Gupta, GS Pullman
US Patent 4,957,866, 1990
991990
Somatic embryogenesis in loblolly pine (Pinus taeda L.): improving culture initiation with abscisic acid and silver nitrate
GS Pullman, K Namjoshi, Y Zhang
Plant cell reports 22, 85-95, 2003
982003
Expressed sequence tags from loblolly pine embryos reveal similarities with angiosperm embryogenesis
J Cairney, L Zheng, A Cowels, J Hsiao, V Zismann, J Liu, S Ouyang, ...
Plant Molecular Biology 62, 485-501, 2006
912006
Epidemiology of Verticillium wilt of cotton: a relationship between inoculum density and disease progression.
GS Pullman, JE DeVay
Phytopathology 72 (5), 549-554, 1982
901982
The impact of Gelrite and activated carbon on the elemental composition of two conifer embryogenic tissue initiation media
SC Van Winkle, S Johnson, GS Pullman
Plant Cell Reports 21, 1175-1182, 2003
892003
Evidence for stage‐specific modulation of specific microRNAs (miRNAs) and miRNA processing components in zygotic embryo and female gametophyte of loblolly pine (Pinus taeda)
TJ Oh, RM Wartell, J Cairney, GS Pullman
New Phytologist 179 (1), 67-80, 2008
862008
Method for reproducing coniferous plants by somatic embryogenesis using abscisic acid and osmotic potential variation.
PK Gupta, GS Pullman
801991
Pine somatic embryogenesis: analyses of seed tissue and medium to improve protocol development
GS Pullman, K Bucalo
New Forests 45, 353-377, 2014
792014
An embryo staging system for comparison of zygotic and somatic embryo development
GS Pullman, DT Webb
TAPPI R&D Division biological sciences symposium, 31-34, 1994
791994
Effect of soil flooding and paddy rice culture on the survival of Verticillium dahliae and incidence of Verticillium wilt in cotton.
GS Pullman, JE DeVay
Phytopathology 71 (12), 1285-1289, 1981
751981
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