The effect of natural and artificial fruit dehiscence on floss properties, seed germination and protein expression in Calotropis procera
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[1] I. Ferguson,et al. Expression of expansin genes in the pulp and the dehiscence zone of ripening durian (Durio zibethinus) fruit. , 2015, Journal of plant physiology.
[2] J. Langridge,et al. Untargeted Metabolomics Reveals Predominant Alterations in Lipid Metabolism Following Light Exposure in Broccoli Sprouts , 2015, International journal of molecular sciences.
[3] T. Galal,et al. Effect of temperature, salinity, light and time of dehiscence on seed germination and seedling morphology of Calotropis procera from urban habitats , 2015 .
[4] Jiarui Li,et al. Comparative proteome analysis of embryo and endosperm reveals central differential expression proteins involved in wheat seed germination , 2015, BMC Plant Biology.
[5] Carl Frieden. ApoE: The role of conserved residues in defining function , 2015, Protein science : a publication of the Protein Society.
[6] R. Sharma,et al. An overview on giant milkweed (Calotropis procera (Ait.) Ait. f.) , 2014 .
[7] J. Almeida-Cortez,et al. Seed Oil Content and Fatty Acid Composition from Different Populations of Calotropis procera (Aiton) W. T. Aiton (Apocynaceae) , 2014 .
[8] W. A. Ramadan,et al. Bent induced refractive index profile variation and mode field distribution of step-index multimode optical fiber , 2014 .
[9] Tahsin Gulzar,et al. CHARACTERIZATION OF TOMATO GERMPLASM THROUGH SEED STORAGE PROTEIN PROFILING BY SDS-PAGE , 2014 .
[10] T. Ghezzehei,et al. A new method for rapid determination of carbohydrate and total carbon concentrations using UV spectrophotometry. , 2013, Carbohydrate polymers.
[11] A. H. Ibrahim. Tolerance and avoidance responses to salinity and water stresses in Calotropis procera and Suaeda aegyptiaca , 2013 .
[12] S. Savvides,et al. Structural and biochemical characterization of an atypical short‐chain dehydrogenase/reductase reveals an unusual cofactor preference , 2013, The FEBS journal.
[13] Sherif S. Z. Hindi,et al. Calotropis Procera: The Miracle Shrub in the Arabian Peninsula , 2013 .
[14] Savitha Gujjaiah,et al. Evaluation of changes in α-amylase, β-amylase and protease during germination of cereals. , 2013 .
[15] S. Abo-Hamed,et al. Parental drought and defoliation effect on yield, grains biochemical aspects and drought performance of sorghum progeny , 2013 .
[16] Qinghua Wang,et al. Purification, characterization of a CkChn134 protein from Cynanchum komarovii seeds and synergistic effect with CkTLP against Verticillium dahliae , 2012, Protein science : a publication of the Protein Society.
[17] O. Raimi,et al. Effect of germination time on fat and protein contents, and α-amylase activity of Guinea Corn (Sorghum vulgare) , 2012 .
[18] Gil Bohrer,et al. Mechanistic models of seed dispersal by wind , 2011, Theoretical Ecology.
[19] F. K'Opondo. Influence of Drying Method and Fruit Position on the Mother Plant on Seed Quality of Spiderplant (Cleome gynandra L.) Morphotypes from western Kenya , 2011 .
[20] Qianchun Deng,et al. Physicochemical changes of oat seeds during germination , 2010 .
[21] P. Škundrić,et al. The effects of hemicelluloses and lignin removal on water uptake behavior of hemp fibers. , 2008, Bioresource technology.
[22] Y. M. Kokoz,et al. Role of the NO-cGMP cascade in regulation of L-type Ca2+ currents in isolated cardiomyocytes , 2008, Biochemistry (Moscow) Supplement Series A: Membrane and Cell Biology.
[23] D. Amritphale,et al. Light environment in pre- and post-dehiscent fruits affects seed germination in Calotropis procera , 2008 .
[24] M. Erdman,et al. Calotropis procera as a source of plant hydrocarbons , 2008, Economic Botany.
[25] C. Ververis,et al. Cellulose, hemicelluloses, lignin and ash content of some organic materials and their suitability for use as paper pulp supplements. , 2007, Bioresource technology.
[26] K. Donohue,et al. Density-dependent processes influencing the evolutionary dynamics of dispersal: a functional analysis of seed dispersal in Arabidopsis thaliana (Brassicaceae). , 2005, American journal of botany.
[27] S. Landhäusser,et al. A method for routine measurements of total sugar and starch content in woody plant tissues. , 2004, Tree physiology.
[28] C. Ferrándiz. Regulation of fruit dehiscence in Arabidopsis. , 2002, Journal of experimental botany.
[29] P. R. Rao,et al. Storage protein degradation in germinating horse gram seeds , 2002 .
[30] R. Seagull,et al. Cotton Fiber Growth and Development 2. Changes in Cell Diameter and Wall Birefringence , 2000 .
[31] D. N. Perkins,et al. Probability‐based protein identification by searching sequence databases using mass spectrometry data , 1999, Electrophoresis.
[32] G. A. Morais,et al. Determination of amylase activity in cotyledons of Phaseolus vulgaris L. cv. carioca , 1998 .
[33] J. R. Keiser. Seeds Handbook: Biology, Production, Processing, and Storage , 1998 .
[34] F. Schmid,et al. Catalyzed and assisted protein folding of ribonuclease T1. , 1996, Biological chemistry.
[35] M. Kashem,et al. Starch, sugar, amylase and invertase activity in the germinating seeds of modern wheat varieties , 1995 .
[36] W. A. Ramadan,et al. On the determination of the refractive index of a fibre. II. Graded index fibre , 1995 .
[37] J. Siriphanich,et al. Durian fruit dehiscence : water status and ethylene , 1994 .
[38] J. S. Burris,et al. Respiration and carbohydrate metabolism during germination of sh2 and Sh2 sweet corn seed , 1992 .
[39] R. Beachy,et al. Conserved amino acid sequences among plant proteins sorted to protein bodies and plant vacuoles. Can they play a role in protein sorting? , 1991, European journal of biochemistry.
[40] C. Shewmaker,et al. Developmental analysis of elongation factor-1 alpha expression in transgenic tobacco. , 1991, The Plant cell.
[41] D. Smittle,et al. Onion Seed Size, Weight, and Elemental Content Affect Germination and Bulb Yield , 1990 .
[42] A. Varshney,et al. Cloth from bast fibre of the Calotropis procera (Aak) plant , 1988 .
[43] A. Varshney,et al. Some possible industrial properties of Calotropis procera (Aak) floss fibre , 1987 .
[44] K. Matsuda,et al. Water-Stress Induced Changes in Concentrations of Proline and Other Solutes in Growing Regions of Young Barley Leaves , 1985 .
[45] Nart Tuntawiroon,et al. The environmental implications of the use of Calotropis gigantea as a textile fabric , 1984 .
[46] Elsa M. L. Ehrnrooth. Change in Pulp Fibre Density With Acid-Chlorite Delignification , 1984 .
[47] M. M. Bradford. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. , 1976, Analytical biochemistry.
[48] N. E. Dweltz,et al. Birefringence of native, alkali‐swollen, and crosslinked cotton fibers , 1976 .
[49] U. K. Laemmli,et al. Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 , 1970, Nature.
[50] A. Abdul-Baki. Metabolism of barley seed during early hours of germination. , 1969, Plant physiology.