A Protein Inhibitor of Polygalacturonase in Apple Fruits Treated with Aminoethoxyvinylglycine and Cobalt Chloride

Ethylene evolution changes were monitored during storage of apple fruits (Malus domestica Borkh., winter cultivar Mantuanskoe) treated with aminoethoxyvinylglycine and CoCl₂. The storage of fruits was shown to be accompanied by changes in the activity of a protein inhibitor of polygalacturonase (PIPG). This inhibitor has been previously isolated from apple fruit tissues. The protein inhibitor of polygalacturonase was also shown to inhibit the activity of an enzyme produced by certain nonpathogenic fungi. The role of PIPG in apple fruit resistance to these fungi is discussed.     

Activity of a protein inhibitor of polygalacturonase in potato plants

The activity of a protein inhibitor of polygalacturonase (PIPG) was studied in potato tubers during storage and in potato leaves and stems during vegetation. The activity of PIPG in tubers varied between seasons. The activity of PIPG during dormancy changed depending on the storage stage and temperature. As a rule, it was higher in etiolated sprouts than in the tubers. The activity of PIPG was slightly higher in leaves of adult vegetating plants than in stems and decreased by the end of vegetation. These changes in the activity of PIPG are suggested to be associated with changes in the growth rate.     

Activity of a proteinaceous polygalacturonase inhibitor in potato plants

The activity of a protein inhibitor of polygalacturonase (PIPG) was studied in potato tubers during storage and in potato leaves and stems during vegetation. The activity of PIPG in tubers varied from between seasons. The activity of PIPG during dormancy changed depending on the storage stage and temperature. As a rule, it was higher in etiolated sprouts than in the tubers. The activity of PIPG was slightly higher in leaves of adult vegetating plants than in stems and decreased by the end of vegetation. These changes in the activity of PIPG are suggested to be associated with changes in the growth rate.     

Change in the level of 1-aminochloropropane-1-carbonic acid. Activity of a protein inhibitor of polygalacturonase, intensity of formation of oligouronides in apples during ripening and treatment with haloethane derivatives and aminoethoxyvinylglycine

We studied changes in the intensity of ethylene release and accumulation of 1-aminocyclopropane-1-carboxylic acid during ripening of two apple varieties characterized by various physiological states and treated with halothane derivatives and L-alpha-(2-aminoethoxyvinyl)-glycine. We observed changes in activity of the protein polygalacturonase inhibitor in the fruit tissue and accumulation of oligouronides. The data suggest that pretreatment with the inhibitor of 1-aminocyclopropane-1-carboxylic acid synthase affects ethylene release, accumulation of 1-aminocyclopropane-1-carboxylic acid, activity of the protein polygalacturonase inhibitor, and potential intensity of oligouronide formation in apple fruits and tissues.     

Changes in the Content of 1-Aminocyclopropane-1-carboxylic Acid, Activity of the Protein Polygalacturonase Inhibitor, and Intensity of Oligouronide Formation in Apples during Ripening and Treatment with Haloethane Derivatives or L-α-(2-Aminoethoxyvinyl)-glycine

We studied changes in the intensity of ethylene release and accumulation of 1-aminocyclopropane-1-carboxylic acid during ripening of two apple cultivars, differing in their physiological state, following treatment with haloethane derivatives or L--(2-aminoethoxyvinyl)-glycine. This changed both the activity of the protein polygalacturonase inhibitor in the fruit tissue and the accumulation of oligouronides. The data suggest that pretreatment with an inhibitor of 1-aminocyclopropane-1-carboxylic acid synthase affects ethylene release, accumulation of 1-aminocyclopropane-1-carboxylic acid, the activity of the protein polygalacturonase inhibitor, and the potential intensity of oligouronide formation in apple fruits and tissues.     

Effect of proteinaceous polygalacturonase inhibitors from apple seed tissue on an enzyme isolated from phytopathogenic fungi

A protein polygalacturonidase inhibitor isolated from fruit of the apple varieties Antonovka and Mantuanskoe differently affects the polygalacturonidases of different phytopathogenic fungi. Three groups of fungi were recognized by the sensitivity of their polygalacturonidases to the inhibitory effect. Storage of apples after harvesting is accompanied by changes in the inhibitor activity, and the time pattern of these changes depends on the variety. An increase in the inhibitor activity occurs concurrently with the elevation in ethylene release characteristic of the stage of elevated respiration (a climacteric increase). The data suggest that a decrease in the apple fruit resistance to microbes at the end of the storage period is related, along with other reasons, to a change in the activity of the protein polygalacturonidase inhibitor.     

The effect of ethylene biosynthesis regulators on metabolic processes in the banana fruits in various physiological states

The effects of ethylene-evolving preparations—2-chloroethylphosphonic acid (2-CEPA), the new generation binary preparation ethacide, and the specific inhibitor of ethylene biosynthesis aminooxyacetic acid (AOA)—on the ethylene evolution by banana (Musa sp.) fruits at various ripening stages and the content of protein inhibitor of polygalacturonase (PIPG), associated with prevention of fruit tissue softening, were studied. It was demonstrated that the ripening stage was of significant importance for the results of treatment with the mentioned preparations. Their effects were most pronounced in the fruits of medium ripeness. 2-CEPA and ethacide increased the ethylene evolution in banana fruits on the average by 25–30%. AOA treatment decreased the ethylene evolution in these fruits by 30%. The PIPG content in fruit pulp was insignificant; 2-CEPA almost did not change its content in banana skin, while ethacide and AOA somewhat decreased it. Consequently, the regulators of ethylene biosynthesis have a potential for optimizing the state of banana fruits during storage and sale.     

Effect of a Protein Polygalacturonidase Inhibitor from Apple Fruit Tissue on the Enzyme Released by Fungal Pathogens

A protein polygalacturonidase inhibitor isolated from fruit of the apple cultivars Antonovka and Mantuanskoe differently affects the polygalacturonidases of different phytopathogenic fungi. Three groups of fungi were recognized according to the sensitivity of their polygalacturonidases to the inhibitory effect. Storage of apples after harvesting is accompanied by changes in the inhibitor activity, and the time pattern of these changes depends on the cultivar. An increase in the inhibitor activity occurs concurrently with the elevation in ethylene release characteristic of the stage of elevated respiration (a climacteric increase). The data suggest that a decrease in the apple fruit resistance to microbes at the end of the storage period is related, along with other reasons, to a change in the activity of the protein polygalacturonidase inhibitor.     

Activity of polygalacturonase-inhibiting protein of banana fruit tissues

The activity of polygalacturonase and the protein inhibiting this enzyme, which affected polygalacturonases of phytopathogenic fungi Verticillium dahliae and Gloesporium musarium, were detected in banana (Musa acumthata L.) fruit of cultivars Cavendish and Korolevskii. The polygalacturonase from banana fruit was inhibited by the preparations of the protein inhibitor not only from bananas but also from potato (Solanum tuberosum L.) tubers and pepper (Capsicum annuum L.) fruit.     

Role of a protein inhibitor of polygalacturonase in ripening of apples and their resistance of infection with Monilia fructigena, the causative agent of fruit rot

We investigated the dynamics of the activity of the polygalacturonidase inhibitor protein (PGIP) in apple fruits of six varieties differing in ripening time and correlated it with the degree of damage by the causative agent of fruit rot, Monilia fructigena. The apple varieties studied differed significantly in PGIP activity and degree of damage by Monilia fructigena. The rate of dissemination over fruit tissues was inversely related to PGIP activity. The resistance of apples to M. fructigena increased with ripening. The simultaneous increase in PGIP activity suggests its important role in the reduction of apple damage by fruit rot.     

Fruit Softening III. Requirement for Oxygen and pH Effects

The regulation of the softening of the cortical tissue of appleand pear fruits was investigated. Transfer of pear fruits toa nitrogen atmosphere arrested fruit softening and pectin degradationwithin 24 h. Anoxia also inhibited softening of discs cut fromripening pear fruits within 6 h, but polygalacturonase (EC 3.2.1.15 [EC] )activity was not substantially impaired and pectin degradationcontinued as in air. Discs of apple tissue softened more slowlythan pear but apple discs were firmer after 24 h under anoxiathan in air. Softening of pear tissue could be reversed by infiltration withpH 8.0 buffer or calcium chloride solution up to day 3 of ripeningat 18 °C. Buffer at pH 3.0 had no effect on fruit firmnessbut eliminated the effect of calcium in a combined treatment.A mixture of buffer at pH 80 and calcium chloride increasedfirmness more than either treatment alone. A similar reversalof softening could be achieved with apple fruit tissue afterstorage for 28 weeks.     

Characterization of Protein Kinases in Apple and Grape During Fruit Development

The protein kinases were identified at different developmental stages of apple (Malus domestica L. Borth. cv. Red Starking) and grape (Vitis vinifera L. × V.lubrusca L. cv. Kyoho) fruit, and these protein kinases were found to be greatly activated by Ca2+. This demonstrated that calcium-dependent protein kinase plays an important role in apple and grape fruits. The results also showed that calmodulin (CaM) had no stimulation effect, but the CaM antagonists, such as calmidazolium, W7 and trifluoroacetic acid (TFA), had some inhibitory effects on the activities of this kind of protein kinase in both fruits, indicating that the detected protein kinases may be a kind of calmodulin-like domain protein kinase or calcium-dependent protein kinase (CDPK). There were distinct differences between apple and grape fruits, both in the characteristics and in the activity evolution patterns of the protein kinases during fruit development. The activity of calcium-dependent protein kinase was little changed in the three stages of apple fruit development, while in grape fruit the activity of this protein kinase was much higher in stage Ⅱ than those in stage Ⅰ and stage Ⅲ. The calcium-dependent protein kinase in apple fruits was strongly activated by Mn2+, and it was sensitive to heat treatment, but in grape fruits it was neither stimulated by Mn2+ nor sensitive to high temperature. Besides, phosphatidyl-serine (PS) had little effect on the activities of calcium-dependent protein kinase in grape fruits, but had stimulative effects in apple fruits. It was thus proposed that there might be a kind of calcium- and phosphatide-activated protein kinase, i.e., PKC, in apple fruits. The differences among the kinds, characteristics and the activity evolution patterns of protein kinases during apple and grape fruit development, suggest that the protein kinases may be involved in the process of fruit development.     

水杨酸（SA）对果实成熟的影响

水杨酸是一种天然抑制剂,对植物有多种多样的作用,新近研究报道,它是乙烯生物合成的一种新的抑制剂。本文用水杨酸处理番茄、苹果、梨等果实,储藏在室温下,不时检查SA对果实贮存保鲜的影响。其结果表明SA处理的果实,PG活性比对照低,而硬度大,抗病力强。番茄,苹果和梨的无病好果率比对照果提高10％以上。上述结果证明,用SA处理绿熟番茄及梨和苹果,能有效保存果实新鲜,增强抗病力和延长货架的寿命。     

Role of the Polygalacturonidase Inhibitor Protein in the Ripening of Apples and Their Resistance to Monilia fructigena, a Causative Agent of Fruit Rot

We investigated the dynamics of the activity of the polygalacturonidase inhibitor protein (PGIP) in apple fruits of six cultivars differing in ripening time and correlated it with the degree of damage by the causative agent of fruit rot, Monilia fructigena. The apple cultivars studied differed significantly in PGIP activity and degree of damage by Monilia fructigena. The rate of dissemination of the fungus over fruit tissues was inversely related to PGIP activity. The resistance of apples to M. fructigena increased with ripening. The simultaneous increase in PGIP activity suggests its important role in the reduction of apple damage by fruit rot.     

The Effect of Plant Polygalaturonase-Inhibiting Protein on the Rate of Oligouronide Formation

The effects of the polygalacturonase-inhibiting protein (PGIP) on the rate of oligouronide formation were studied in a model system containing polygalacturonic acid and polygalacturonase (PG) from the culture medium of phytopathogenic fungi. PGIP preparations were prepared from stored potato tubers and sprouts and also from apple fruits. The PGIP effects on oligouronide synthesis depended markedly on the physiological state of the source plant. Apple cultivars differing in their earliness differed in PGIP effects as well. The PGIP from potato tubers, which were in deep dormancy, suppressed oligouronide formation. The inhibitory PGIP action was decreased after dormancy release and tuber sprouting, which resulted in the oligouronide accumulation. The effects of PGIP from apple fruits on the oligouronide synthesis in the system containing PG from various phytopathogenic fungi were not correlated with tissue damage induced by these fungi. The PGIP effects on oligouronide formation are evident; however, their role in plant-cell processes related to the pectin compound conversions and plant resistance to diseases remains to be elucidated.     

Effect of storage conditions on virulence of Fusarium avenaceum and Alternaria alternata on apple fruits

To overcome difficulty in phytopathogenic fungi control during storage of apple fruits, the effect of different storage conditions on the occurrence and development of Fusarium avenaceum and Alternaria alternata infections on apple cultivar “Cripps Pink” was investigated during and after storage. Inhibitory effects of wild oregano essential oil on apple fruit rots caused by F. avenaceum and A. alternata were also tested as possible rot control measure. Artificially inoculated apple fruits were kept in cold storage with normal (NA) and controlled (CA) atmosphere for 95 days and at room temperature only. The obtained results indicated that different storage conditions significantly affect necrosis development on apple fruits caused by F. avenaceum and A. alternata after storage, as well as during shelf life.     

Enzymic hydrolysis of placental cell wall pectins and cell separation in watermelon (Citrullus lanatus) fruits exposed to ethylene

Watermelon [ Citrullus lanatus (Thunb.) Matsum and Nakai, cv. Charleston Gray] fruits were examined to determine the effect of ethylene on cell wall hydrolases. pectin degradation, and cell wall ultrastructure. Enzymic studies showed that activity of polygalacturonase (EC 3.2.1.15) increased in placental tissue following 1 day of ethylene treatment and was 10 times higher after 6 days of treatment. The increase in polygalacturonase activity was accompanied by the appearance in ethanol powders of low-molecular-weight pectic polymers and a decrease in total pectin. The enhanced enzyme activity and decrease in total pectins were observed only in fruits exposed to ethylene. Ultrastructural studies of ethylene-treated tissue revealed an early disintegration of the middle lamella. The onset of wall separation coincided with the first notable increase in polygalacturonase activity. Cell wall of untreated fruit showed no evidence of structural changes. The results indicate that initiation of enzymic activity and cell wall separation in response to ethylene are not characteristic phenomena of normal ripening and senescence in watermelon fruit.     

Apple polygalacturonase inhibiting protein1 expressed in transgenic tobacco inhibits polygalacturonases from fungal pathogens of apple and the anthracnose pathogen of lupins

Extracts from apple fruit (cultivar "Granny Smith") inhibited the cell-wall degrading polygalacturonase (PG) activity of Colletotrichum lupini, the causal agent of anthracnose on lupins, as well as Aspergillus niger PG. Southern blot analysis indicated that this cultivar of apple has a small gene family of polygalacturonase inhibiting proteins (pgips), and therefore heterologous expression in transgenic tobacco was used to identify the specific gene product responsible for the inhibitory activity. A previously isolated pgip gene, termed Mdpgip1, was introduced into tobacco (Nicotiana tabacum) by Agrobacterium-mediated transformation. The mature MdPGIP1 protein was purified to apparent homogeneity from tobacco leaves by high salt extraction, clarification by DEAE-Sepharose and cation exchange HPLC. Purified MdPGIP1 inhibited PGs from C. lupini and PGs from two economically important pathogens of apple trees, Botryosphaeria obtusa and Diaporthe ambigua. It did not inhibit the A. niger PG, which was in contrast to the apple fruit extract used in this study. We conclude that there are at least two active PGIPs expressed in apple, which differ in their charge properties and ability to inhibit A. niger PG.     

Polygalacturonase inhibitor protein from fruits of anthracnose resistant and susceptible varieties of Chilli (Capsicum annuum L)

Chilli fruit is highly susceptible to anthracnose infection at the stage of harvest maturity, due to which the fruit yield in the leading commercial variety Byadgi is severely affected. Field studies on screening of several varieties for resistance to anthracnose have shown that a variety of chilli AR-4/99K is resistant to anthracnose infection. In many crops, resistance to fungal attack has been correlated with PGIP activity in developing fruits based on which transgenic varieties have been developed with resistance to fungi. The present study was carried out to determine whether anthracnose resistance in AR-4/99K was due to the increased levels of PGIP alone and/ or due to differences, if any, in the properties of PGIP. Hence, a comparative study of the properties of polygalacturonase inhibitor protein (PGIP) isolated from fruits of anthracnose resistant chilli var AR-4/99K and a susceptible variety Byadgi was conducted with the objective of utilizing the information in genetic transformation studies. Both the PGIPs from anthracnose resistant and susceptible varieties of chilli exhibited similarities in the elution pattern on Sephadex gel, DEAE cellulose, PAGE and SDS-PAGE. The two PGIPs were active over a wide range of pH and temperature. Both PGIPs showed differential inhibitory activity against polygalacturonase (PG) secreted by Colletotrichum gleosporoides, C. capsici, C. lindemuthianum, Fusarium moniliforme and Sclerotium rolfsii. The inhibitory activity of PGIP from both resistant and susceptible varieties was the highest (82% and 76%, respectively) against the PG from Colletotrichum capsici, a pathogen causing anthracnose rot of chilli, while the activity was lower (1.27 to 12.3%) on the other fungal PGs. Although PGIP activity decreased with fruit maturation in both the varieties, the resistant variety maintained a higher activity at 45 days after flowering (DAF) as compared to the susceptible variety which helped it to overcome the infection by anthracnose as against the susceptible variety (Byadgi) in which PGIP activity was drastically reduced at maturity. The molecular mass of PGIP as determined by SDS-PAGE was found to be 37 kDa. N-terminal sequence analysis of the PGIP showed the first six amino acid residues from N-terminal end were Asp-Thr-His-Lys-Ser-Glu (DTHKSE), respectively. The similarities in properties of the two PGIPs support the earlier findings that resistance of AR-4/99K to anthracnose fungus is a result of its higher PGIP activity at maturity.     

Relationship of Endopolygalacturonase Inhibitor Activity to the Rate of Fungal Rot Development in Apple Fruits

An inhibitor extracted form the cell walls of apple fruits suppressed the activity of endopopygalacruronases (endo-PGs) produced in vivo and in vitro by Nectria galligena, Phomopsis mali, Fusarium Lateritium and Glomerella cingulata but not the endo-PGs produced by Penicillium expansum or Phytophtobora syringae. Of four apple cultivars tested Granny Smith tissue contained the highest levels of inhibitor and Cox's Orange Pippin contained the least. Linear rot expansion in the four apple cultivars inoculated with N. galligena was inversely related to inhibitor activity in the fruit tissue, rot development being slowest in Granny Smith fruits and most rapid in Cox's Orange Pippin fruits. Rot expansion in fruits inoculated with P. expansum bore no such relationship to inhibitor activity in the tissue Apple tissue maceration by the endo-PGs from N. galligena, P. mali. F. lateritium and G. cingulata was similarly related to inhibitory activity in the fruit. The properties of the partially purified inhibitor were consistent with it being proteinaceous but the relative slowness with which it was hear inactivated and the presence of a small percentage of carbohydrate might indicate that it was a glycoprotein.