Electrical activity and structural correlates of giant nerve fibers in Kuruma shrimp (Penaeus japonicus)

Morphology and recordings of electrical activity of Kuruma shrimp (Penaeus japonicus) giant medullated nerve fibers were carried out. A pair of giant fibers with external diameter of about 120 μ and 10 μ in myelin thickness were found in the ventral nerve cord. The diameter of the axon is about 10 μ. Thus there is a wide gap between the axon and the external myelin sheath. Each axon is doubly coated directly by Schwann cells and indirectly by the myelin sheath layer which is produced by those Schwann cells. Impulse conduction velocities of these giant fibers showed a range between 90–210 m/sec at about 22°C. Large action potentials (up to 113 mV, rise time of 0.16–0.3 msec, maximum rate of rise of 650–1250 V/sec, half decay time of 0.2–0.3 msec, maximum rate of fall of 250–450 V/sec and total duration of less than 1.5 msec) could be obtained by inserting microelectrodes or by longitudinal insertion of 25 μ diameter capillary electrodes into the gap but no DC-potential difference was observed across the myelin sheath. Transmyelin electrical parameters were very favorable for fast impulse conduction: myelin resistance of 3 × 10⁴ Ω cm²; time constant of 0.38 msec; myelin capacitance of 1.35 × 10^?8 F/cm²; gap fluid resistivity of 23 Ω cm. The existence of nodes of Ranvier could not be demonstrated morphologically, but electrophysiological evidence suggests that a type of saltatory conduction occurs in these giant fibers.     

Variations in myocardial CPK and Na+-K+ ATPase following long-term freezing.

The activity of the soluble enzyme CPK and the membrane bound enzyme Na⁺-K⁺ ATPase as a function of storage temperature, time of storage and cryoprotectant type and concentration in canine myocardial tissue was invesigated. Activity of CPK is well preserved at ?196 °C and ?79 °C and falls off during one month storage at ?40 °, ?20 °, and 0 °C. Na⁺-K⁺ ATPase demonstrates a greater liability. After an initial cryoprotectant “activation,” activity drops. In all cases, however, addition of the cryoprotectant preserved activity better than in samples stored only in buffer.     

Biochemical studies of the excitable membrane of Paramecium aurelia. I. 45Ca2+ fluxes across resting and excited membrane

The characteristics of Ca²⁺ transport across the excitable membrane of Paramecium aurelia were studied by measuring ⁴⁵Ca²⁺ influx and efflux. The intracellular concentration of free Ca²⁺ in resting P. aurelia was at least ten times less than the extracellular concentration. Ca²⁺ influx was easily measurable at 0°C, but not at 23°C. The influx of ⁴⁵Ca²⁺ was stimulated by the same conditions which cause membrane depolarization and ciliary reversal. Addition of Na⁺ and K⁺ (which stimulate ciliary reversal) resulted in a 10-fold increase in the rate of Ca²⁺ influx. An externally applied, pulsed, electric field (1–2 mA/cm² of electrode surface), caused the rate of Ca²⁺ influx to increase 3–5 times, with the extent of stimulation dependent on the current density and the pulse width Ca²⁺ influx had the characteristics of a passive transport system and was associated with the chemically or electrically triggered Ca²⁺ “gating” mechanism, which has been studied electrophysiologically. In contrast, Ca²⁺ efflux appeared to be catalyzed by an active transport system. With cells previously loaded at 0°C with ⁴⁵Ca²⁺, Ca²⁺ efflux was rapid at 23°C, but did not occur at 0°C. This active Ca²⁺ efflux mechanism is probably responsible for maintaining the low internal Ca²⁺ levels in unstimulated cells.     

Temperature Characteristics of Excitation in Space-Clamped Squid Axons

Temperature characteristics of excitability in the squid giant axon were measured for the space-clamped axon with the double sucrose gap technique. Threshold strength-duration curves were obtained for square wave current pulses from 10 µsec to 10 msec and at temperatures from 5°C to 35°C. The threshold change of potential, at which an action potential separated from a subthreshold response, averaged 17 mv at 20°C with a Q¹⁰ of 1.15. The average threshold current density at rheobase was 12 µa/cm² at 20°C with a Q¹⁰ of 2.35 compared to 2.3 obtained previously. At short times the threshold charge was 1.5·10^-8 coul/cm². This was relatively independent of temperature and occasionally showed a minimum in the temperature range. At intermediate times and all temperatures the threshold currents were less than for both the single time constant model and the two factor excitation process as developed by Hill. FitzHugh has made computer investigations of the effect of temperature on the excitation of the squid axon membrane as represented by the Hodgkin-Huxley equations. These are in general in good agreement with our experimental results.     

Accumulation and turnover of abscisic acid in osmotically stressed cotton leaf tissue in relation to temperature

Leaf discs of cotton (Gossypium hirsutum L. cv. Deltapine 70) were osmotically stressed by floating them on solutions of polyethylene glycol 8000. The tissue produced copious amounts of abscisic acid (ABA) when stressed. Accumulation of ABA depended strongly upon temperature during the incubation, displaying a maximum at 20°C. At 35°C, the amount of ABA accumulated after 24 h was 45–80% less than at 20°C. Temperature did not affect leakage of ABA into the medium. Turnover rate of [¹⁴C]ABA was more than 3 times greater at 35°C than at 20°C. This rapd turnover at 35°C could account for the decreased ABA accumulation. Three ¹⁴C-containing metabolites of ABA were extracted from the tissue. At 20°C, two of these accumulated and retained substantial ¹⁴C over 16 h. At 35°C, though, the ¹⁴C in one of these compounds was almost completely lost during the last 8 h of the incubation. Although the metabolites are not identified, the results show some specific effects of temperature on ABA metabolism. The strong effect of temperature on ABA accumulation may contribute to patterns of ABA-dependent processes (such as stomatal closure) during water stress.     

Analysis of potassium conductance in squid giant axons

Assuming a model of facilitated ionic transport across axonal membranes proposed by McIlroy (1975) and extended by McIlroy and Hahn (1978), it is shown that if the selectivity coefficient, π_K, of the potassium conducting system ?59 the permeabilityP _Ks, of the periaxonal barrier of the squid giant axon for K⁺ ions?(1.2±0.44)×10^?4 cm sec^?1 and the thickness of the periaxonal space ?477±168 Å. Using a value (10^?4 cm sec^?1) ofP _Ks in the foregoing range the experimental curves for the steady state membrane ionic conductance versus measured membrane potential difference (p.d.), ?, of Gilbert and Ehrenstein (1969) are corrected for the effect of accumulation of K⁺ in the periaxonal space. This correction is most marked for the axon immersed in a natural ionic environment, whose conductance curve is shifted ?70mV along the voltage axis in the hyperpolarization direction. By assuming that the physico-chemical connection between a depolarization of the axonal membrane and the consequent membrane conductance changes is a Wien dissociative effect of the membrane's electric field on a weak electrolyte situated in the axolemma, the position of the peaks of the corrected conductance versus ? curves can be identified with zero membrane electric field and hence with zero p.d.across the axolemma. A set of values for the double-layer p.d.s at the axonal membrane interfaces with the external electrolytes in the vicinity of the K⁺ conducting pores can therefore be deduced for the various external electrolytes employed by Gilbert and Ehrenstein. A model of these double-layer p.d.s in which the membrane interfaces are assumed to possess fixed monovalent negatively charged sites, at least in the neighbourhood of the K⁺ conducting pores, is constructed. It is shown that, using the previously deduced values for the doublelayer p.d.s, such a model has a consistent, physically realistic solution for the distance between the fixed charged sites and for the dissociation constants of these sites in their interaction with the ions of the extramembrane electrolytes.     

Open-top static respirometry is a reliable method to determine the routine metabolic rate of barramundi,Lates calcarifer

Closed-system respirometry is a standard technique used to determine aerobic metabolism of aquatic organisms. Open-top systems are rarely used due to concerns of gas exchange across the air–water interface. Here, we evaluated an open-top respirometry system by comparing the mass-specific routine metabolic rate (RMR) of the tropical diadromous finfish barramundi, Lates calcarifer, in both closed-top and open-top respirometers. The RMR of 190?g barramundi was determined across broad temperatures ranging from 18 to 38?°C. There was no significant difference in RMR between barramundi in either closed- or open-top respirometers at any temperature (p?>?0.05). To ensure RMR measurements were not an artifact of the respirometry system, barramundi were reciprocally transplanted into either respective closed-top or open-top respirometer and oxygen consumption re-measured at each temperature treatment. The RMR of transplanted barramundi was found to be virtually identical in either respirometer. RMR increased linearly with increasing temperature; the relationship between RMR and temperature (T; 18–38?°C) can be described as 3.658T?36.294?mg?O₂?kg^?0.8?h^?1. The daily energetic cost of RMR was 1.193T?11.838?kJ?kg^?0.8?day^?1. Q₁₀ for barramundi increased significantly with increasing temperature (p?Q_10(18–28) was the lowest at 1.7 and Q_10(28–38) the highest at 1.9, over the whole experiment temp range Q_10(18–28) was 1.8. The current study demonstrates that open-top respirometry is a reliable and practical alternative to closed-top respirometry for accurate determination of the aerobic metabolism of barramundi and has potential application for a number of different aquatic organisms.     

Tolerance of the invasive tunicate Styela clava to air exposure

Styela clava is a subtidal invasive marine species in Northern Europe, Atlantic Canada, Australia and New Zealand. It grows attached to solid substrata, including boat hulls, ropes, moorings, piers and aquaculture equipment, all of which can aid its spread to new locations. It interferes with feeding of mussels and oysters, and increases their harvesting costs. Being subtidal, it could be assumed that tunicates would rapidly die in air and thus exposure to air would be a practical method to prevent their spread on boats and equipment. This study tested their survival when exposed to air for up to (1) 120?h at a constant temperature of 10?°C, (2) shade ambient 15–27?°C, and (3) full sun ambient 15–29?°C. Humidity was consistently high (78–100%). The results indicated that survival was longer when the air temperature was cooler. Larger individuals of S. clava generally survived for longer out of seawater than smaller individuals. The results predict that two weeks of exposure to air for two weeks could be an effective management method to eradicate S. clava from marine equipment when the air temperature is 10?°C. However, drying time would be less under conditions of low humidity and under direct sunlight.     

Effects of thiamine antagonists on nerve conduction. II. Voltage clamp experiments with antimetabolites

Thiamine antimetabolites were externally applied to voltage clamped squid giant axons to investigate the possible role of thiamine in nerve conduction. Phenylthiazinothiamine, in concentrations as low as 250 m̈M, reduced peak early current and steady-state current, with the depression of the former being two to five times greater than that of the latter. Peak transient and steady-state conductances were about equally depressed by thiamine tert-butyl disulfide (2 mM) and L-586944-00P07 (5–10 mM). None of the antimetabolites produced an appreciable change in the kinetics of Na⁺ activation, K⁺ activation, or Na⁺ inactivation. Thiamine itself, applied externally up to 30 mM, had no appreciable effect on either the magnitude or time course of the ionic currents. Although these data are consistent with the hypothesis that thiamine may be involved in nerve conduction, they probably reflect a nonspecific stabilizing interaction of this class of compound with the axon membrane. Taken in this light, the hypothesis that thiamine plays a direct role in Na⁺ channel permeability changes must be reevaluated.     

TRANSVERSE ELECTRIC IMPEDANCE OF THE SQUID GIANT AXON

The impedance of the excised giant axon from hindmost stellar nerve of Loligo pealii has been measured over the frequency range from 1 to 2500 kilocycles per second. The measurements have been made with the current flow perpendicular to the axis of the axon to permit a relatively simple analysis of the data. It has been found that the axon membrane has a polarization impedance with an average phase angle of 76° and an average capacity of 1.1µf./cm² at 1 kilocycle. The direct current resistance of the membrane could not be measured, but was greater than 3 ohm cm.² and the average internal specific resistance was four times that of sea water. There was no detectable change in the membrane impedance when the axon lost excitability, but some time later it decreased to zero.     

Maturation of beta-adrenergic receptor activity of rabbit aorta and pulmonary artery

Helically cut strips of thoracic aorta and main pulmonary artery from rabbits of varying age were examined for their ability to relax with cumulative doses of isoproterenol (ISO) and sodium nitrite (NaNO₂) in the presence of appropriate blocker(s) in isolated tissue baths. The baths contained Kreb's solution maintained at 37°C and oxygenated with 95% O₂  5% CO₂. The vessels were preconstricted with 3 × 10^?6M 5-hydroxytryptamine (5HT) which produced approximately 95–100% of maximal contraction to the drug. The relaxation induced by ISO or NaNO₂ was expressed as a percent of contraction produced by this dose of 5HT. The magnitudes of percent relaxation produced by 1 × 10^?3M NaNO₂ were the same for all age groups, but those produced by ISO were significantly less in the 1–2 day and 7–10 day groups than in the 1 month and 4–5 month groups in both the aorta and pulmonary artery (p < 0.01). These findings indicate that the beta-adrenergic receptor function in the aorta and pulmonary artery of the newborn rabbit is not fully developed but it matures with age.     

Mass production and storage of Vairimorpha necatrix (protozoa: Microsporida)

Mass production and storage methods were evaluated for maximization of spores of Vairimorpha necatrix, a promising protozoan for microbial control due to its virulence and prolificity in lepidopterous pests. In vivo spore production was at a maximum when 3rd instar Heliothis zea were exposed to 6.6 spores/mm² of artificial diet surface and reared for 15 days. Approximately 1.67 × 10¹⁰ spores/larva were produced, or ca. 1 × 10¹⁰ spores/larva after partial purification of the spores by homogenization of the larvae in water, filtration, and centrifugation. The spores were inactivated by relatively short exposures to several chemicals which were tested to counteract contamination of the diet surface by fungi in the spore inoculum. Spores of V. necatrix were stored at refrigerated and freezing temperatures for up to 2 years and bioassayed periodically with 2nd instar H. zea. Spores lost little infectivity after 23 months at 6°C if they were stored in a purified water suspension plus antibiotic, but they were noninfective after 18 months at 6°C if stored in host tissue. Storage at ?15°C caused little loss of infectivity whether the spores were stored in water and glycerine, in host tissue, or after lyophilization. The spores withstood lyophilization in host cadavers better than in purified water suspension. Samples of a dry V. necatrix-corn meal formulation, which was prepared for field efficacy tests and stored at ?15° and 6°C, were highly infective after 9 months. Large numbers of V. necatrix spores can thus be produced and later made available for microbial control field trials with little loss of infectivity.     

Differential effects of depolarization on the growth of crayfish tonic and phasic motor axons in culture

Previous studies have demonstrated neuron-specific differences in the inhibitory effects of depolarization upon neurite outgrowth. We examined whether there is a relationship between the normal impulse activity level of an axon and the effect of depolarization upon its growth. Inactive phasic motor axons and active tonic motor axons grow from crayfish abdominal nerve cord explants in culture. Depolarization of these axons with high K⁺ solutions produced greater inhibition of advancing growth cones from the phasic axons than from the tonic axons. During the period 20–40 min after the beginning of depolarization, tonic axon growth cones continued to advance, whereas phasic axon growth cones retracted. During chronic depolarization, all of the phasic axons retracted during the first day and approximately half of the phasic axons had degenerated after 4 days of depolarization. The majority of tonic axons continue to grow after 3 days of depolarization, and all of the tonic axon growth survived the 4 days of depolarization. The different responses of the growing phasic and tonic axons to depolarization appear to be Ca²⁺ dependent. The inhibitory effects of depolarization upon phasic axon growth were reduced by the Ca²⁺ channel blockers La³⁺ and Mg²⁺. Application of a Ca²⁺ ionophore, A23187, produces greater inhibition of phasic axon growth than tonic axon growth. This study demonstrates that depolarization produces greater inhibition of growth from inactive motor axons than from active motor axons. This is likely due to differences in Ca²⁺ regulation and/or sensitivity to intracellular Ca²⁺. © 1997 John Wiley & Sons, Inc. J Neurobiol 33: 85–97, 1997     

Powdery mildew of tobacco (Erysiphe cichoracearum DC.): Some effects of methods of inoculation and air humidity on germination of conidia and growth of hyphae on leaves*

Germination of conidia of Erysiphe cichoracearum and hyphal growth in 3 days at 23° C. and 6 mb. saturation deficit was similar, whether conidia were applied dry or suspended for up to 1 hr. in glass-distilled water before being sprayed on tobacco leaves. Growth of single conidial colonies whose hyphae were more than 333 μ long, was positively correlated with numbers per cm.² of leaf (P < 0.01) on three of the eleven times tested, mostly when conidia were sparsely distributed; ten of the regressions were positive. A greater percentage of conidia germinated at 0–1.7 mb. saturation deficit than at 7–9 mb. Subsequent growth of hyphae was greater in the drier air.     

Freezing-induced cellular and membrane dehydration in the presence of cryoprotective agents

Abstract

FTIR and cryomicroscopy have been used to study mouse embryonic fibroblast cells (3T3) during freezing in the absence and presence of DMSO and glycerol. The results show that cell volume changes as observed by cryomicroscopy typically end at temperatures above ?15°C, whereas membrane phase changes may continue until temperatures as low as ?30°C. This implies that cellular dehydration precedes dehydration of the bound water surrounding the phospholipid head groups. Both DMSO and glycerol increase the membrane hydraulic permeability at subzero temperature and reduce the activation energy for water transport. Cryoprotective agents facilitate dehydration to continue at low subzero temperatures thereby decreasing the incidence of intracellular ice formation. The increased subzero membrane hydraulic permeability likely plays an important role in the cryoprotective action of DMSO and glycerol. In the presence of DMSO water permeability was found to be greater compared to that in the presence of glycerol. Two temperature regimes were identified in an Arrhenius plot of the membrane hydraulic permeability. The activation energy for water transport at temperature ranging from 0 to ?10°C was found to be greater than that below ?10°C. The non-linear Arrhenius behavior of Lp has been implemented in the water transport model to simulate cell volume changes during freezing. At a cooling rate of 1°C min^-1, ～5% of the initial osmotically active water volume is trapped inside the cells at ?30°C.     

Effects of ambient calcium concentration on morphological form of callus-like cells in Saccharina japonica (Phaeophyceae) sporophyte

Explants obtained from young sporophytes of Saccharina japonica were cultured in an artificial medium with different concentrations of Ca²⁺ (0–20?mM). The culture with 10?mM Ca²⁺ promoted the formation of unpigmented filamentous callus-like cells in the cortical layer. In contrast, explants cultured with 5?mM Ca²⁺ formed pigmented round callus-like cells in the epidermis at a high percentage. The thallus regeneration rate of explants in 5?mM Ca²⁺ was ten times higher than those of explants cultured in 10?mM Ca²⁺. Ambient Ca²⁺ concentrations also influenced the production of radical oxygen species (ROS) in explants. Explants cultured in 10?mM Ca²⁺ produced higher ROS than did those cultured in 5?mM. The ROS production was histologically observed mainly in the plasma membrane of callus-like cells using 2′, 7′-dichlorodihydrofluorescein diacetate. Moreover, a nicotinamide adenine dinucleotide phosphate (NADPH) oxidase inhibitor, diphenyleneiodonium chloride, inhibited the ROS production with propagation of filamentous callus-like cells. These results suggest that Ca²⁺ concentration in medium influences the development of callus-like cells and thallus regeneration by affecting NADPH oxidase activity and ROS production in the plasma membrane of the callus-like cells. Therefore, the morphological form of callus-like cells and the development of thallus will be controlled by Ca²⁺ concentration in the medium.     

Analogs of host-specific phytotoxin produced by Helminthosporium maydis,race T: II. Biological activities

Inhibition of dark CO₂ fixation by susceptible corn leaves was used to compare the relative toxicity of synthetic analogs with that of the host-specific phytotoxin produced by the fungal corn pathogen, Helminthosporium maydis, race T. Analogs with C₁₅, C₂₅, or C₂₆ chain lengths and 1,5-dioxo-3-hydroxy functions were only slightly less toxic (2–6 × 10^?7M) than native T toxin (C₃₅–C₄₅ chain lengths) or its individual components (3 × 10^?8M). Like native toxin, analogs were host-specific in that they did not inhibit dark CO₂ fixation in leaf tissue of resistant corn at concentrations 10²–10³ times greater than those effective with susceptible corn. These findings support the structures previously proposed for native T toxin.     

Studies on the mechanism of ADRY agents (agents accelerating the deactivation reactions of water-splitting enzyme system Y) on thermoluminescence emission

The effect of 2-(3-chloro-4-trifluoromethyl)anilino-3,5-dinitrothiophene (ANT-2p), known to be the most powerful ADRY agent (Renger, G. (1972) Biochim. Biophys. Acta 256, 428–439), on thermoluminescence has been investigated. Two thermoluminescence bands were analyzed: (a) the emission peaking at about 20–30°C caused by warming up of untreated chloroplasts, illuminated with a single 5 μs flash at room temperature and frozen rapidly to 77 K; and (b) the band emitted in the range of ?10 up 10°C after warming of chloroplast suspensions containing 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU) which were illuminated with a single 5 μs flash at ?15°C and frozen rapidly at 77 K. These bands were attributed to the recombination of the B ^?S₂(S₃) and X-320 ^?S₂ states, respectively (Rutherford, A.W., Crofts, A.R. and Inoue, Y. (1982) Biochim. Biophys. Acta 682, 457–465). It was found that: (1) The B ^?S₂(S₃) band is markedly diminished at very low ANT-2p concentrations of less than one molecule per 2000 chlorophylls. (2) The inhibition of the X-320 ^?S₂ band requires significantly higher concentrations of ANT-2p (50% peak reduction at one ANT-2p molecule per 100 chlorophylls). (3) Preflashing at room temperature before cooling to ?15°C diminishes the X-320 ^?S₂ band significantly in the presence of ANT-2p, while almost no effect is observed in its absence. (4) The state X-320 ^?S₂ decays monoexponentially with a half-lifetime of 2 min at ?15°C in the absence of ANT-2p. In the presence of one ANT-2p molecule per 800 chlorophylls the decay becomes biphasic with half-lifetimes of 0.5 and 2 min and an amplitude ratio of 2:3, respectively. The results obtained can be explained consistently by the function of ANT-2p as an ADRY agent acting as a mobile species within the thylakoid membrane at room temperature. At subzero temperatures, a ‘fixed-place’ mechanism appears to be operative. The implications for the ADRY effect and thermoluminescence are discussed.     

Very low-angle light scattering. A characterization method for high-molecular-weight DNA

A very low-angle light-scattering photometer is described with respect to optical features, scattering cell, correction factors, and absolute calibration in the angular range 2°–35°. An improved microfiltration apparatus was used to obtain essentially dust-free aqueous solutions for very low-angle light scattering. The instrument was calibrated with silicotungstic acid, an absolute molecular-weight standard, and the calibration was confirmed with the use of several secondary standards. Very low-angle light-scattering measurements were made to determine the weight-average molecular weight M?_r and z-average radius of gyration R_g,z of a commerical preparation of calf-thymus DNA. Microfiltration of the solutions allowed measurements down to 6°. The value M?_r = 20.0 × 10⁶ obtained by extrapolating 6°–9° data to 0° is more than three times that from 30°–75° data (6.38 × 10⁶) but ～20% smaller than that from 10–35° data (23.7 × 10⁶). The experimental errors in M?_r and R_g,z are estimated to be ±8% and ±14%, respectively. Combined 6°–75° data from two photometers fit well a theoretical scattering curve for a model wormlike coil of the same M?_r as the DNA sample.     

Biochemical properties of a serine protease from Aspergillus flavus and application in dehairing

The proteases are enzymes produced by several filamentous fungi with important biotechnological applications. In this work, a protease from Aspergillus flavus was characterized. The culture filtrate of A. flavus was purified to homogeneity by Sephacryl S-200 column chromatography followed by CM–cellulose. The molecular weight of the purified enzyme was estimated to be approximately 32?kDa by SDS–PAGE. The enzyme hydrolysed BTpNA (N-α-benzoyl-dl-tyrosyl-p-nitroanilide), azo-casein and casein as substrates. Optimal temperature and pH were 55?°C and 6.5, respectively. The enzyme was stimulated by Mg²⁺, Ca²⁺, Zn²⁺ and inhibited by Hg²⁺ and Ag²⁺ and Cu²⁺. The protease showed increased activity with detergents, such as Tween 80 and Triton X, and was stable to the reducing agents, such as β-mercaptoethanol. The protease activity was strongly inhibited in the presence of phenylmethylsulfonyl fluoride, indicating it is a serine protease. The enzyme entrapped in calcium alginate beads retained its activity for longer time and could be reused up to 10 times. The thermostability was increased after the immobilization and the enzyme retained 100% of activity at 45?°C after 60?min of incubation, and 90% of residual activity at 50?°C after 30?min. In contrast, the free enzyme only retained 10% of its residual activity after 60?min at 50?°C. The enzymatic preparation was demonstrated to be efficient in the capability of dehairing without destruction of the hide. The remarkable properties such as temperature, pH and immobilization stability found with this enzyme assure that it could be a potential candidate for industrial applications.