Cellulase in red clover exudates

Summary Cellulase was detected in the medium when red clover (Trifolium pratense) seedlings were grown aseptically in flasks. The amount of cellulase found depended on the ionic composition and pH of the medium. Cellulase was found when plants were grown in distilled water. With added salts the amount of cellulase detected was negligible at pH 5.5 or less, but increased with increasing pH; less was released when seedlings were grown throughout in the presence of CaCl₂. The enzyme may be extracytoplasmic, located on the root surface, and released by changes in the salt content and pH of the medium.Enzyme preparations contained at least two components. At pH 3.5 and 20°C one was stable for at least 22 h, whereas the other was destroyed within 0.5 h. The reaction rate of enzyme preparations was almost constant from pH 5 to 7.     

Unusual Behavior of Membrane Somatic Angiotensin-Converting Enzyme in a Reversed Micelle System

Properties of the membrane and soluble forms of somatic angiotensin-converting enzyme (ACE) were studied in the system of hydrated reversed micelles of aerosol OT (AOT) in octane. The membrane enzyme with a hydrophobic peptide anchor was more sensitive to anions and to changes in pH and composition of the medium than the soluble enzyme without anchor. The activity of both forms of the enzyme in the reversed micelles significantly depended on the molarity of the buffer added to the medium (Mes-Tris-buffer, 50 mM NaCl). The maximum activity of the soluble ACE was recorded at buffer concentration of 20-50 mM, whereas the membrane enzyme was most active at 2-10 mM buffer. At buffer concentrations above 20 mM, the rate of hydrolysis of the substrate furylacryloyl-L-phenylalanyl-glycylglycine by both ACE forms was maximal at pH 7.5 both in the reversed micelles and in aqueous solutions. However, at lower concentrations of the buffer (2-10 mM), the membrane enzyme had activity optimum at pH 5.5. Therefore, it is suggested that two conformers of the membrane ACE with differing pH optima for activity and limiting values of catalytic constants should exist in the reversed micelle system with various medium compositions. The data suggest that the activity of the membrane-bound somatic ACE can be regulated by changes in the microenvironment.     

Effect of ionic strength on the regulatory properties of 2-oxoglutarate dehydrogenase complex.

The effects of changing ionic strength on the activity of the 2-oxoglutarate dehydrogenase complex from pig kidney cortex were explored. This enzyme complex is found to be influenced in many ways by the ionic strength of the reaction medium. The enzyme shows an optimum activity at 0.1 M ionic strength. Increase in ionic strength from 0.1 M to 0.2 M resulted in a decrease of S0.5 for 2-oxoglutarate, and in an increase of S0.5 for NAD. Changes in ionic strength over the range of 0.05-0.2 M have little, if any, effect on S0.5 for CoA. The Hill coefficient for 2-oxoglutarate and NAD at 0.2 M ionic strength was 1.0, whereas at 0.05 M ionic strength it was 0.85 and 1.2 for 2-oxoglutarate and NAD, respectively. At 0.05 M ionic strength the pH optimum of the enzyme ranges between 7.4-7.6, but at 0.15 M ionic strength the pH optimum shifts to 7.8. The magnitude of inhibition of enzyme activity by ATP is not influenced by changes in ionic strength in the absence of calcium. However, in the presence of Ca2+, increases in ionic strength lower the inhibitory effects of ATP. The Si0.5 for ATP in both presence and absence of Ca2+ was not affected by changes in ionic strength in the range of 0.1-0.2 M. In contrast, the Sa0.5 for ADP in the absence of Ca2+ decreases as ionic strength increases. In the presence of calcium and 0.2 M ionic strength ADP has no effect on 2-oxoglutarate dehydrogenase complex activity.     

Purification and properties of α-d-mannosidase from the limpet, Patella vulgata

1. alpha-Mannosidase from the limpet, Patella vulgata, was purified nearly 150-fold, with 40% recovery. beta-N-Acetylglucosaminidase was removed from the preparation by treatment with ethanol. The final product was virtually free from beta-galactosidase. 2. Limpet alpha-mannosidase was assayed at pH3.5 and at this pH it was necessary to add Zn(2+) for full activity. At pH5, the enzyme had the same activity in the presence or absence of added Zn(2+). 3. On incubation at acid pH, the enzyme underwent reversible inactivation, which was prevented by adding Zn(2+). 4. EDTA accelerated inactivation and the addition of Zn(2+) at once restored activity. No other cation was found to reactivate the enzyme. 5. Cl(-) had an unspecific effect on hydrolysis by limpet alpha-mannosidase. It increased the rate of reaction with substrate. The anion did not prevent or reverse inactivation by EDTA. 6. It is concluded that alpha-mannosidase is a metalloenzyme or enzyme-metal ion complex, dissociable at the pH of activity, and that it requires Zn(2+) specifically.     

The stability and aggregation properties of human liver acid beta-D-galactosidase.

1. A method is described for following continuously the action of beta-galactosidase on 4-methylumbelliferyl beta-D-galactoside at pH 4.5, in which 4-methylumbelliferone production is measured at fluorescence excitation and emission wavelengths of 324 and 444nm respectively. 2. Initial-rate studies show that the presence of salt activates beta-galactosidase up to 100 mM, but is inhibitory above that concentration. The enzyme is very unstable at 37 degrees C and low ionic strength, but stability increases with ionic strength. 3. The stability of the enzyme at 37 degrees C decreases markedly with rising pH in the range 5.9--8.0. 4. Gel-filtration patterns demonstrate that there is a marked tendency to polymerization with increasing ionic strength. The gel-filtration pattern shows decreasing amounts of dimer with increasing pH. 5. The correlation between activity, stability and molecular form of beta-galactosidase is discussed. It is suggested that the dimeric form of the enzyme is the most stable and active form. The implications of this finding for the assay of beta-galactosidase under physiological conditions for prenatal diagnosis are discussed. 6. Evidence for the possible occurrence of a 36 000-mol.wt. from of beta-galactosidase is presented. 7. A computer program for the calculation of initial rates has been deposited as Supplementary Publication SUP 50114 (4 pages) at the British Library Lending Division, Boston Spa, Wetherby, West Yorkshire LS23 7BQ, U.K., from whom copies can be obtained on the terms indicated in Biochem. J. (1981) 193, 5.     

Quantitative assay of senescence-associated beta-galactosidase activity in mammalian cell extracts

Senescence-associated beta-galactosidase activity is a widely used biomarker for assessing replicative senescence in mammalian cells. This enzymatic activity has generally been measured by staining cells with the chromogenic substrate 5-bromo-4-chloro-3-indolyl-beta-d-galactopyranoside (X-gal) at pH 6.0, a reaction condition that suppresses lysosomal beta-galactosidase activity sufficiently to ensure that most nonsenescent cells will appear unstained. This article describes a quantitative method for measuring this activity and characterizes the method using extracts from senescent, quiescent, and presenescent human fibroblasts. The assay is capable of detecting relatively subtle changes in activity and confirms previous indications based on staining that confluency and contact inhibition of growth can cause a small increase in the expression of this biomarker. Investigation of the pH dependence of the activity in the cell extracts suggests that the senescent phenotype is correlated with an increase in total beta-galactosidase rather than with a shift in the pH optimum of the enzyme. This assay for measuring senescence-associated changes in beta-galactosidase is suitable for mechanistic studies of senescence regulation in which graduated changes in biomarker expression may be anticipated.     

Enzyme immobilization on colloidal liquid aphrons (CLAs): the influence of system parameters on activity

The novel technique of immobilization of beta-galactosidase on colloidal liquid aphrons (CLAs) was investigated. CLAs are oil-in-water macroemulsions stabilised by a mixture of ionic and nonionic surfactants. Enzyme retention was found to be unaffected by changes in bulk phase pH and ionic strength, indicating that beta-galactosidase immobilization was due primarily to hydrophobic interactions. However, by varying the polarity of the internal solvent core, and the charge of the surfactants used in the formation of the CLAs, it was found that immobilization could be improved to almost 100% under certain conditions indicating that electrostatic interactions also affected immobilization to a lesser degree. Upon immobilization, it was found that there was a shift in the pH optimum of the enzyme, with the immobilized enzyme showing a broader range, and a maximal activity at higher pH. The immobilized beta-galactosidase displayed normal Michaelis-Menten dependence on substrate concentration, whilst also exhibiting superactivity for increased substrate concentrations. Activation energy was determined for the CLA immobilized enzyme, and it was found to decrease indicating that a conformational change had occurred that may account for the observed increase in activity. Finally, although the temperature profile of the immobilized enzyme was similar to the free enzyme, it was very stable, with a potential half-life of 3.6 years at 30 degrees C.     

The acylation of L-glycerol-3-phosphate by microsomes from rat brain: effects arising from the properties of the reaction medium

Abstract— The velocity of the reaction catalysed by acyl-CoA: l -giycerol-3-phosphate acyltransferase (EC 2.3.1.15) of microsomes from rat brain was affected by the nature of the buffering agent, the ionic strength and the sucrose concentration of the reaction medium. The enzyme was inhibited by buffers based on trimethyl-pyridine, diethyl barbituric acid, and boric acid. Buffers based on N-ethyl morpholine, potassium phosphate, sodium arsenate, imidazole, tris and triethanolamine were not inhibitory. Dithiothreitol protected the enzyme and produced maximal activity at levels in the reaction medium between 0.2 and 2.8 mM. Optimum ionic strength was determined by varying the concentration of a potassium phosphate buffer and in this medium the optimum ionic strength was about 0.2 M. In other studies with sodium formate, potassium acetate and other salts there was a broad plateau of activity in a range about 0.2 M. A study of pH vs. activity with two different buffering agents at constant ionic strength showed a broad maximum of activity from pH 7.2 to pH 7.8. The velocity of the reaction could be further increased by the inclusion of 0.25 M-sucrose in the reaction medium in the presence of 0.2 M salts. The sucrose effect produced maximum velocities at sucrose concentrations ranging from 0.2 to 0.6 M. The studies reported here indicate that the activity of the enzyme is dependent upon the state of hydration of the microsomal membranes and in part on the ability of the enzyme or membrane to cope with large micelles of S-palmityl-CoA.     

Cloning and partial characterization of regulated promoters from Lactococcus lactis Tn917-lacZ integrants with the new promoter probe vector, pAK80.

Transposon Tn917-LTV1 was used to produce a collection of Lactococcus lactis strains with fusion of a promoterless lacZ gene to chromosomal loci. Screening 2,500 Tn917-LTV1 integrants revealed 222 that express beta-galactosidase on plates at 30 degrees C. Pulsed-field gel electrophoresis revealed Tn917-LTV1 insertions in at least 13 loci in 15 strains analyzed. Integrants in which beta-galactosidase expression was regulated by temperature or pH and/or arginine concentration were isolated. In most cases, the regulation observed on plates was reproducible in liquid medium. One integrant, PA170, produces beta-galactosidase at pH 5.2 but not at pH 7.0, produces more beta-galactosidase at 15 degrees C than at 30 degrees C, and has increased beta-galactosidase activity in the stationary phase. DNA fragments potentially carrying promoters from selected Lactococcus lactis integrants were cloned in Escherichia coli. A new promoter probe vector, pAK80, containing promoterless beta-galactosidase genes from Leuconostoc mesenteroides subsp. cremoris and the Lactococcus lactis subsp. lactis biovar diacetylactis citrate plasmid replication region was constructed, and the lactococcal fragments were inserted. Plasmid pAK80 was capable of detecting and discriminating even weak promoters in Lactococcus lactis. When inserted in pAK80, the promoter cloned from PA170 displayed a regulated expression of beta-galactosidase analogous to the regulation observed in PA170.     

Induction of bphA, encoding biphenyl dioxygenase, in two polychlorinated biphenyl-degrading bacteria, psychrotolerant Pseudomonas strain Cam-1 and mesophilic Burkholderia strain LB400

We investigated induction of biphenyl dioxygenase in the psychrotolerant polychlorinated biphenyl (PCB) degrader Pseudomonas strain Cam-1 and in the mesophilic PCB degrader Burkholderia strain LB400. Using a counterselectable gene replacement vector, we inserted a lacZ-Gm(r) fusion cassette between chromosomal genes encoding the large subunit (bphA) and small subunit (bphE) of biphenyl dioxygenase in Cam-1 and LB400, generating Cam-10 and LB400-1, respectively. Potential inducers of bphA were added to cell suspensions of Cam-10 and LB400-1 incubated at 30 degrees C, and then beta-galactosidase activity was measured. Biphenyl induced beta-galactosidase activity in Cam-10 to a level approximately six times greater than the basal level in cells incubated with pyruvate. In contrast, the beta-galactosidase activities in LB400-1 incubated with biphenyl and in LB400-1 incubated with pyruvate were indistinguishable. At a concentration of 1 mM, most of the 40 potential inducers tested were inhibitory to induction by biphenyl of beta-galactosidase activity in Cam-10. The exceptions were naphthalene, salicylate, 2-chlorobiphenyl, and 4-chlorobiphenyl, which induced beta-galactosidase activity in Cam-10, although at levels that were no more than 30% of the levels induced by biphenyl. After incubation for 24 h at 7 degrees C, biphenyl induced beta-galactosidase activity in Cam-10 to a level approximately four times greater than the basal level in cells incubated with pyruvate. The constitutive level of beta-galactosidase activity in LB400-1 grown at 15 degrees C was approximately five times less than the level in LB400-1 grown at 30 degrees C. Thus, there are substantial differences in the effects of physical and chemical environmental conditions on genetic regulation of PCB degradation in different bacteria.     

Electrogenic transport by the Enterococcus hirae ATPase

A transport ATPase from Enterococcus hirae was reconstituted in lipid vesicles and its electrogenic action investigated with the fluorescent dye oxonol VI as membrane potential probe. Reconstitution in bacterial and in soybean phospholipid mixtures led to transport-active vesicle preparations. Inside-out oriented ATPase molecules were activated by the addition of ATP to the extravesicular medium, generating in all experiments an intravesicularly positive potential. The extravesicular pH strongly influenced the initial pumping rate and the duration of the pumping activity. At neutral pH, transient pumping activity was observed, lasting for 1-2 min, while at pH 5.6, pumping was continuous. The transport activity was not dependent on the ionic composition of the buffer on either side of the membrane. These findings can be interpreted as the action of a proton ATPase, regulated by the cytoplasmic proton concentration and electrogenically translocating protons from the cytoplasm to the extracellular space.     

Reactivity of the sulphydryl groups of the mitochondrial phosphate carrier

The rate of reaction of - SH groups of the mitochondrial phosphate carrier with 5,5'-dithiobis(2-nitrobenzoic acid) (Nbs2) and N-ethylmaleimide (MalNEt) was followed by measuring the inhibition of phosphate transport. The changes in the rate of reaction caused by alterations of the ionic composition of the matrix were compared with changes of the total intramitochondrial phosphate content, the intramitochondrial K+ content and the value of intramitochondrial pH. The ionic composition was manipulated by addition of valinomycin to non-respiring or to respiring mitochondria and by addition of inorganic phosphate to respiring and non-respiring mitochondria. From all these variables it was the changes of the intramitochondrial pH which correlated with the - SH group reactivity. Internal acidification decreased and internal alkalinization increased the rate of reaction of mitochondrial phosphate carrier with both Nbs2 and MalNEt. Nbs2 did not penetrate the inner mitochondrial membrane as assayed by determination of the acid-soluble thiol content of the matrix. From this fact it follows that the Nbs2-reactive SH groups of the carrier were accessible from the outer surface of the inner membrane in our experiments. It is concluded that intramitochondrial pH modifies the reactivity of the externally oriented - SH groups indirectly. A hypothesis is presented according to which protonation and deprotonation of the carrier molecule on the inner side could induce a conformational change of the whole protein altering also the microenvironment of the - SH groups near the opposite surface.     

Beta-galactosidase monitoring by a biosensor based on Clark electrode: its optimization, characterization and application

beta-Galactosidase is an hydrolase enzyme that catalyzes the hydrolysis of beta-galactosides into monosaccharides. Substrates of different beta-galactosidases include ganglioside GM1, lactosylceramides, lactose, and various glycoproteins. A novel aspect of the activity determination of beta-galactosidase was presented. A glucose oxidase biosensor based on Clark electrode was utilized in order to monitor beta-galactosidase. Immobilization of glucose oxidase was made by gelatin and glutaraldehyde as cross-linker. Several parameters such as glucose oxidase activity, gelatin amount, and glutaraldehyde percentage for cross-linking were optimized. The most important parameter, lactose concentration in working buffer was studied in detail. Optimum temperature, thermal stability, optimum pH, buffer system and its concentration effect on the biosensor system, repeatability, reproducibility, and storage and operational stabilities of the biosensor were identified. A linear detection range for beta-galactosidase was observed between 9.4 x 10(-5) and 3.2 x 10(-2)U/ml. Finally, beta-galactosidase activity in artificial intestinal juice was investigated by the biosensor and the results obtained were compared with a reference spectrophotometric method.     

Characterization of a thermostable recombinant beta-galactosidase from Thermotoga maritima

AIMS: Characterization of a thermostable recombinant beta-galactosidase from Thermotoga maritima for the hydrolysis of lactose and the production of galacto-oligosaccharides. METHODS AND RESULTS: A putative beta-galactosidase gene of Thermotoga maritima was expressed in Escherichia coli as a carboxyl terminal His-tagged recombinant enzyme. The gene encoded a 1100-amino acid protein with a calculated molecular weight of 129,501. The expressed enzyme was purified by heat treatment, His-tag affinity chromatography, and gel filtration. The optimum temperatures for beta-galactosidase activity were 85 and 80 degrees C with oNPG and lactose, respectively. The optimum pH value was 6.5 for both oNPG and lactose. In thermostability experiments, the enzyme followed first-order kinetics of thermal inactivation and its half-life times at 80 and 90 degrees C were 16 h and 16 min, respectively. Mn2+ was the most effective divalent cation for beta-galactosidase activity on both oNPG and lactose. The Km and Vmax values of the thermostable enzyme for oNPG at 80 degrees C were 0.33 mm and 79.6 micromol oNP min(-1) mg(-1). For lactose, the Km and Vmax values were dependent on substrate concentrations; 1.6 and 63.3 at lower concentrations up to 10 mm of lactose and 27.8 mm and 139 micromol glucose min(-1) mg(-1) at higher concentrations, respectively. The enzyme displayed non-Michaelis-Menten reaction kinetics with substrate activation, which was explained by simultaneous reactions of hydrolysis and transgalactosylation. CONCLUSIONS: The results suggest that the thermostable enzyme may be suitable for both the hydrolysis of lactose and the production of galacto-oligosaccharides. SIGNIFICANCE AND IMPACT OF THE STUDY: The findings of this work contribute to the knowledge of hydrolysis and transgalactosylation performed by beta-galactosidase of hyperthermophilic bacteria.     

转糖基β-半乳糖苷酶产生菌Enterobacter agglomerans B1：筛选鉴定、发酵产酶及其合成低聚半乳糖的研究

从土壤中筛选获得一株具有转糖基活性的β-半乳糖苷酶产生菌,综合其形态学特征、生理生化特征及16S rDNA序列同源分析结果,将其鉴定为成团肠杆菌(Enterobacter agglomerans)B1.通过单因子试验和正交试验,对B1菌株产转糖基β-半乳糖苷酶的培养条件进行了优化.最佳培养基主要组份为:乳糖1%,酵母粉1%,蛋白胨0.5%;发酵条件为:初始pH7.5,发酵温度25℃,发酵时间26 h.在该培养条件下产酶量为9.7U/mL.利用薄层层析技术研究了pH、温度、底物浓度和反应时间对该菌株全细胞以乳糖为底物生成低聚半乳糖的影响,确定最适反应条件为:pH7.5缓冲液配制的30%乳糖溶液;50℃反应12h.最优化反应的转糖基产物经HPLC、TLC和MS分析,确定低聚半乳糖产量为40.7%,组分为转移二糖、三糖和四糖.     

The mechanism of pH-dependent hydrogen peroxide cytotoxicity in vitro

The present paper is concerned with the influence of hydrogen ion concentration and composition of the medium on clonogenic survival of epithelial cells exposed to hydrogen peroxide in vitro. The survival of cells incubated with H2O2 in phosphate-buffered saline at pH 6.5 was 1 x 10(-2) and increased abruptly to 9 x 10(-2) at pH 7.0. The pH dependence of the cytocidal effect was particularly conspicuous when Eagle's minimum essential medium (SFMEM) was used for cell exposure to H2O2: the survival was characterized by exponential pH dependence and varied from 1 x 10(-1) to 9 x 10(-1) for pH 6.5 and 7.5, respectively, with a superimposed sharp peak value of 9 x 10(-1) at pH 7.0. The enhanced pH dependence of the H2O2 cytotoxicity in SFMEM was found to result from the additive action of glucose and histidine present in this medium. Glucose alone protected the cells with the efficiency decreasing with increasing hydrogen ion concentration. Histidine was responsible for the intermediate maximum in the pH-dependent survival spectrum. In addition, the changes in cell survival were accompanied by pH-dependent release of GSSG from the exposed cells. The GSSG efflux was inhibited by glucose in the medium. The influence of glucose on both the pattern of cell survival and the associated GSSG release indicate that the glutathione peroxidase activity supported by the pentose phosphate pathway is crucial in cell protection against extracellular H2O2 toxicity.     

Calcium stimulates ornithine decarboxylase activity in cultured mammalian epithelial cells

Ornithine decarboxylase (ODC) activity usually rises to a peak a few hours after a trophic stimulus. The stimulation of ODC has been shown to depend on extracellular calcium in several in vitro eukaryotic systems. We have investigated the effect of calcium concentration on ODC activity and have found that ODC is stimulated when CaCl2 alone is added to calcium-deprived cells. Epithelial cells from calf esophagus were cultured and grown until stratified. Replacement of medium with fresh serum-free medium resulted in stimulation of ODC activity, which peaked at 4 hours and declined to basal level by 10 hours. Subsequent depletion of Ca2+ either by addition of ethylene glycol bis (beta-aminoethyl ether) N,N'-tetraacetic acid (EGTA) or by replacement of medium with Ca2+-free medium, resulted in obliteration of ODC activity 4 hours later. Conversely, cultures in which medium was replaced with Ca2+-free medium and at 10 hours were repleted with Ca2+ (either by addition of CaCl2 or by replacement of medium with Ca2+-containing medium) exhibited a pronounced elevation of ODC activity 4 hours later. ODC activity peaked at 6 hours after the addition of CaCl2 and declined by 8 hours. The effect was elicited by a wide range of concentrations of added Ca2+ from 0.1 mM to 4.0 mM, but was maximal at 1.0 mM. ODC activity was totally abolished if either cycloheximide (10 micrograms/ml) or putrescine (10 mM) was added to cultures immediately prior to Ca2+ addition. Actinomycin D (2, 5, or 10 micrograms/ml) added 30 minutes before Ca2+ did not prevent the stimulation of ODC by added Ca2+. Stimulation by Ca2+ is dependent on (1) absence of Ca2+ during the initial 10-hour incubation and (2) duration of incubation in Ca2+-free medium prior to Ca2+ replenishment. The results indicate that Ca2+ can increase ODC in epithelial cells exposed to Ca2+-depleted medium and that the increase in ODC depends on protein synthesis but is not inhibited by actinomycin D.     

嗜盐古菌启动子DNA片段的功能检测

将来源于嗜盐古菌染色体DNA的启动子片段RM07或RM13插入到启动子探针载体pYLZ_2的报告基因lacZ之前,通过β_半乳糖苷酶酶活性的检测,进一步确证RM07和RM13片段在大肠杆菌(Escherichia coli)中的启动功能。同时用微量热技术检测了大肠杆菌DH5α及其重组菌株在LB培养基中37℃生长过程的热输出功率。T2(pYLZ_2)、TE07(pYL726)、TE07_2(pYL702)、TE131(pYL131)和TE132(pYL132)菌株的生长速率分别比大肠杆菌DH5α降低了6.5%、11%4、1.1%4、7.5%和42.7%。当启动子启动了基因表达时,菌株的生长速率显著降低,热力学参数与酶活性检测结果有较好的一致性。微量热结果表明基因的表达比质粒DNA的复制过程需要消耗更多的能量,对细菌的生理代谢有较大改变。微量热技术为检测基因的表达和转录调控提供了新的方法和思路。     

Human small-intestinal β-galactosidases. Separation and characterization of three forms of an acid β-galactosidase

1. An acid beta-galactosidase, optimum pH4.0-4.5, in the human small-intestinal mucosa was separated and characterized. 2. Autolysis of mucosal homogenates at acid pH inactivated the lactase and hetero beta-galactosidase; the total activity of the acid beta-galactosidase was only slightly depleted, but a greater proportion of the enzyme was solubilized by this treatment. 3. Separation on a Sephadex G-200 column revealed that the acid beta-galactosidase could occur in at least three different forms, probably representing monomer, dimer and octamer or polymer of the enzyme. 4. The properties of the different forms of the acid beta-galactosidase were studied with regard to pH optimum, K(m), rate of hydrolysis of different substrates, and sensitivity to p-chloromercuribenzoate and tris as inhibitors. All these properties were the same for the different forms of the enzyme. 5. The acid beta-galactosidase hydrolyses lactose as well as hetero beta-galactosides and contributes to the lactase activity of intestinal biopsies also when measured at pH 6. This enzyme may therefore be responsible for a considerable part of the residual lactase activity found in lactose-intolerant patients.