“Disaggregation” of Phytochrome in Vitro —A Consequence of Proteolysis

A cholinesterase was purified 36-fold from mung bean (Phaseolus aureus) roots by a combination of differential extraction media and gel filtration. The enzyme could be effectively extracted only by high salt concentration, indicating that it is probably membrane-bound. Methods used for assaying animal cholinesterases were tested, two of which were adapted for use with the bean cholinesterase. The bean enzyme hydrolyzed choline and noncholine esters but showed its highest affinity for acetylcholine and acetylthiocholine. The pH optimum was 8.5 for acetylthiocholine and 8.7 for acetylcholine. The Michaelis constants were 72 and 84 AM for acetylcholine and acetylthiocholine, respectively. The cholinesterase was relatively insensitive to eserine (half-maximum inhibition at 0.42 mM) but showed high sensitivity to neostigmine (half-maximum inhibition at 0.6 AM). Other animal cholinesterase inhibitors were also found to inhibit the bean enzyme but most of them at higher concentrations than are generally encountered. Choline stimulated enzymatic activity. The molecular weight of the cholinesterase was estimated to be greater than 200,000, but at least one smaller form was observed. It is suggested that the large form of cholinesterase is converted to the smaller form by proteolysis.Acetylcholine has been shown to participate in phytochrome-mediated processes in bean roots (16), and the results obtained in the above work suggested that bean roots might contain a cholinesterase which functions to regulate the content of ACh' in roots. Other workers (8, 9, 13) have also reported that whenever ACh was found to play a role in physiological processes in plant tissues, ChE inhibitors increased the effects of ACh or were essential for getting any effects of ACh. It The chemicals used in this work were obtained from the following sources: choline chloride, acetylcholine chloride, acetylthiocholine iodide, propionylthiocholine iodide, butyrylthiocholine iodide, DTNB, eserine (physostigmine) sulfate, neostigmine (prostigmine) bromide, bovine serum albumin, Triton X-100, and Sephadex G-200 from Sigma Chemical Co.; acetyl-I-'4C-choline chloride (9.2 mc/mmole) and Aquasol

Section: Discussionmentioning

confidence: 92%

Cholinesterases from Plant Tissues

Riov¹,

Jaffe²

1973

“…We have attributed this discrepancy (5) to the protection against proteolysis afforded by our inclusion of the phenylmethylsulfonyl fluoride in the homogenization buffer. This compound is a potent inhibitor of proteases found in homogenates of grass seedlings (9).…”

Section: Resultsmentioning

confidence: 99%

“…The procedure does not change the recovery of auxinbinding sites compared to the previous procedure employing a mortar and pestle (unpublished results). The homogenization buffer was 50 mm Tris HC1, 1.0 mm Na2EDTA, 0.10 mm MgCl2, 14 mm 2-mercaptoethanol, 0.25 M sucrose (pH 8.0), normally saturated before use with phenylmethylsulfonylfluoride to retard proteolysis (9). The fluid was pressed through nylon cloth and microsomes were prepared by sequential sedimentation at 10,000g (10 min) and 48,000g (60 min) as previously described (5).…”

Section: Methodsmentioning

confidence: 99%

Properties of a Solubilized Microsomal Auxin-binding Protein from Coleoptiles and Primary Leaves of Zea mays

Cross

Briggs²

1978

Self Cite

An auxln-blndng protein can be soh_Ilize from microsoml anes of Zes mays using either Triton X-100 extraction of the mmbranes or buffer extraction of the acetone-precipitated membranes. This paper describes the properties of the biding protein so ld by thes two methods. The bndng is assayed by gel filtration chromatography in the presence of napbthalene 12-i4CIacetlc acid. Bing is rapid and reversible with an optium at pH 5. Both preparations show similar molecular weights by gel filtratio (80,000 daons) at pH 7.6 and 0

“…Both the coleoptiles and the primary leaves were used as starting material, since both contain the binding sites (24). Tissue was chopped and ground, as previously described (23), in one volume of homogenization buffer (50 mm Tris HCI, 1.0 mm disodium EDTA, 0.10 mM MgC62, 14 mM 2-mercaptoethanol, 0.25 M sucrose, (pH 8.0, normally saturated before use with PMSF3 to retard proteolytic degradation (8). After pressing the fluid through nylon cloth (2.7…”

Section: Methodsmentioning

confidence: 99%

Auxin Receptors of Maize Coleoptile Membranes Do Not Have ATPase Activity

Cross

Briggs²,

Dohrmann³

et al. 1978

Self Cite

Extensive evidence favors the view that auxins cause at least their initial effect on cell elongation in shoot tissues by inducing the secretion of hydrogen ions from within the cells into the cell wall space outside them (4,15,20). Since in other systems proton export is known to result from activity of a membrane-bound ATPase (3, 9, 25, 28), it has been suggested that auxin probably activates an 10,21 were cut at the coleoptilar node and placed on ice. Both the coleoptiles and the primary leaves were used as starting material, since both contain the binding sites (24). Tissue was chopped and ground, as previously described (23), in one volume of homogenization buffer (50 mm Tris HCI, 1.0 mm disodium EDTA, 0.10 mM MgC62, 14 mM 2-mercaptoethanol, 0.25 M sucrose, (pH 8.0, normally saturated before use with PMSF3 to retard proteolytic degradation (8). After pressing the fluid through nylon cloth (2.7x 4 threads/mm), the filter cake was rehomogenized with 0.5 volume of buffer and the fluid was again pressed through the cloth. The filtrate was centrifuged at l0,OOOg (10 min) to remove debris and larger organelles. The supernatant fluid was then centrifuged at 145,000g (20 min) to pellet the microsomal fraction, which was washed with 10 mm sodium citrate-citric acid, 0.5 mm MgCl2, 0.25 M sucrose (pH 6.0) and repelleted at the same force. This pellet was finally homogenized in resuspension buffer (10 mm sodium citrate-citric acid, 5 iM MgCl2, 0.25 M sucrose (pH 5.5) (23) and then treated for 1 hr at 0 C with the indicated amount of Triton X-100. The sample was then recentrifuged at 145,000g (60 min) to pellet the unsolubilized material. The supernatant constituted the solubilized preparation used for auxinbinding and ATPase measurements.