Extraction, purification et caractérisation d’isoformes d’hexokinase du tubercule de pomme de terre (Solanum tuberosum)

Moisan, Marie-Claude

12 1900

L’hexokinase (HK) est la première enzyme du métabolisme des hexoses et catalyse la réaction qui permet aux hexoses d’entrer dans le pool des hexoses phosphates et donc par le fait même la glycolyse. Bien que le glucose soit son principal substrat, cette enzyme peut aussi phosphoryler le mannose et le fructose. Malgré son importance dans le métabolisme primaire, l’HK n’a jamais été purifiée à homogénéité sous forme native. Le but de ce travail était donc de purifier une isoforme d’HK à partir de tubercule de Solanum tuberosum et par la suite de caractériser ses propriétés cinétiques. Bien avant que je commence mon travail, un groupe de recherche avait déjà séparé et partiellement purifié trois isoformes d’HK de S. tuberosum. Un protocole d’extraction était donc disponible, mais l’HK ainsi extraite était peu stable d’où le besoin d’y apporter certaines modifications. En y ajoutant certains inhibiteurs de protéases ainsi qu’en modifiant les concentrations de certains éléments, le tampon d’extraction ainsi modifié a permis d’obtenir un extrait dont l’activité HK était stable pendant au moins 72h après l’extraction, en empêchant la dégradation. À l’aide du tampon d’extraction optimisé et d’une chromatographie sur colonne de butyl sépharose, il a été possible de séparer 4 isoformes d’HKs. Par la suite, une isoforme d’HK (HK1) a été purifiée à l’homogénéité à l’aide de 5 étapes de chromatographie supplémentaires. En plus de caractériser les propriétés cinétiques de cette enzyme, l’analyse de séquençage par MS/MS a permis de l’associer au produit du gène StHK1 de Solanum tuberosum. Avec une activité spécifique de 10.2 U/mg de protéine, il s’agit de l’HK purifiée avec l’activité spécifique la plus élevée jamais rapportée d’un tissu végétal.L’ensemble des informations recueillies lors de la purification de HK1 a ensuite été utilisée pour commencer la purification d’une deuxième isoforme (HK3). Ce travail a permis de donner des lignes directrices pour la purification de cette isoforme et certains résultats préliminaires sur sa caractérisation enzymatique. / Hexokinase (HK) catalyzes the first step of hexose metabolism by phosphorylating hexose to generate the corresponding hexose phosphate thereby allowing hexose entrance in glycolysis. Even though glucose is the main substrate, HK can also phosphorylate a broad spectrum of hexoses. Despite its importance this enzyme has never been purified to homogeneity in a native form. The aim of this work was therefore to purify this enzyme from Solanum tuberosum tubers and subsequently characterize its kinetic properties. Before I started this work, another group had already separated and partially purified 3 HK isoform from S. tuberosum. An extraction protocol was available but improvement was necessary since the extracted HK had little stability. By adding some protease inhibitors and by modifying the concentration of certain components in the extraction buffer we were able to obtain an extract with a HK activity stable for at least 72 h after extraction by preventing degradation. With this buffer and chromatography on butyl sepharose it was possible to separate 4 HK isoforms from S. tuberosum. After 5 more chromatographic steps, one HK isoform was purified to homogeneity (HK1). This enzyme was characterized and sequenced by MS/MS. We were able to associate this protein sequence with the gene product of StHK1 from S. tuberosum. With a specific activity of 10.2 U/mg of protein, this is the HK with the highest specific activity ever reported from a plant tissue. All the information gathered while purifying HK1 was used to undertake the purification of a second isoform (HK3). We were able to obtain preliminary results on its kinetic properties.

Hexokinase

Tubercule de pomme de terre

Purification de protéine

Caractérisation enzymatique

Hexokinase

Potato tuber

Protein purification

Protein characterization

Extraction, purification et caractérisation d’isoformes d’hexokinase du tubercule de pomme de terre (Solanum tuberosum)

Moisan, Marie-Claude

12 1900

L’hexokinase (HK) est la première enzyme du métabolisme des hexoses et catalyse la réaction qui permet aux hexoses d’entrer dans le pool des hexoses phosphates et donc par le fait même la glycolyse. Bien que le glucose soit son principal substrat, cette enzyme peut aussi phosphoryler le mannose et le fructose. Malgré son importance dans le métabolisme primaire, l’HK n’a jamais été purifiée à homogénéité sous forme native. Le but de ce travail était donc de purifier une isoforme d’HK à partir de tubercule de Solanum tuberosum et par la suite de caractériser ses propriétés cinétiques. Bien avant que je commence mon travail, un groupe de recherche avait déjà séparé et partiellement purifié trois isoformes d’HK de S. tuberosum. Un protocole d’extraction était donc disponible, mais l’HK ainsi extraite était peu stable d’où le besoin d’y apporter certaines modifications. En y ajoutant certains inhibiteurs de protéases ainsi qu’en modifiant les concentrations de certains éléments, le tampon d’extraction ainsi modifié a permis d’obtenir un extrait dont l’activité HK était stable pendant au moins 72h après l’extraction, en empêchant la dégradation. À l’aide du tampon d’extraction optimisé et d’une chromatographie sur colonne de butyl sépharose, il a été possible de séparer 4 isoformes d’HKs. Par la suite, une isoforme d’HK (HK1) a été purifiée à l’homogénéité à l’aide de 5 étapes de chromatographie supplémentaires. En plus de caractériser les propriétés cinétiques de cette enzyme, l’analyse de séquençage par MS/MS a permis de l’associer au produit du gène StHK1 de Solanum tuberosum. Avec une activité spécifique de 10.2 U/mg de protéine, il s’agit de l’HK purifiée avec l’activité spécifique la plus élevée jamais rapportée d’un tissu végétal.L’ensemble des informations recueillies lors de la purification de HK1 a ensuite été utilisée pour commencer la purification d’une deuxième isoforme (HK3). Ce travail a permis de donner des lignes directrices pour la purification de cette isoforme et certains résultats préliminaires sur sa caractérisation enzymatique. / Hexokinase (HK) catalyzes the first step of hexose metabolism by phosphorylating hexose to generate the corresponding hexose phosphate thereby allowing hexose entrance in glycolysis. Even though glucose is the main substrate, HK can also phosphorylate a broad spectrum of hexoses. Despite its importance this enzyme has never been purified to homogeneity in a native form. The aim of this work was therefore to purify this enzyme from Solanum tuberosum tubers and subsequently characterize its kinetic properties. Before I started this work, another group had already separated and partially purified 3 HK isoform from S. tuberosum. An extraction protocol was available but improvement was necessary since the extracted HK had little stability. By adding some protease inhibitors and by modifying the concentration of certain components in the extraction buffer we were able to obtain an extract with a HK activity stable for at least 72 h after extraction by preventing degradation. With this buffer and chromatography on butyl sepharose it was possible to separate 4 HK isoforms from S. tuberosum. After 5 more chromatographic steps, one HK isoform was purified to homogeneity (HK1). This enzyme was characterized and sequenced by MS/MS. We were able to associate this protein sequence with the gene product of StHK1 from S. tuberosum. With a specific activity of 10.2 U/mg of protein, this is the HK with the highest specific activity ever reported from a plant tissue. All the information gathered while purifying HK1 was used to undertake the purification of a second isoform (HK3). We were able to obtain preliminary results on its kinetic properties.

Hexokinase

Tubercule de pomme de terre

Purification de protéine

Caractérisation enzymatique

Hexokinase

Potato tuber

Protein purification

Protein characterization

Biochemistry and genetics of carotenoid composition in potato tubers

Othman, Rashidi

January 2009

Potato cultivars exhibit a wide variation in skin and flesh colour due to the presence of pigments. This study established that potato cultivars differ greatly with respect to types and concentrations of carotenoids in tubers. A total of 46 cultivars were evaluated for quantitative and qualitative carotenoid composition in different growing seasons, locations, storage conditions and disease symptoms. Factors controlling carotenoid accumulation were also tested by developing an in vitro minituber system as a new high-throughput model system for carotenogenesis in potato tubers. Tuber flesh colour was found to correlate with total carotenoid content in potato cultivars grown in both New Zealand and Netherlands. The main carotenoids identified in 32 potato cultivars in New Zealand were lutein, neoxanthin, violaxanthin and β-carotene. The ratio of these carotenoids varies between cultivars. Neoxanthin was detected in only 13 cultivars (10.59 to 69.21µg/g DW); violaxanthin was found only in 1 cultivar (32.76 µg/g DW). Whereas lutein and β-carotene were found in most of the cultivars but the concentration varied from (0.00 to 160.63 µg/g DW) and (0.00 to 13.62 µg/g DW) respectively. The main carotenoids identified in 12 cultivars grown in the Netherlands were neoxanthin, violaxanthin and lutein, whereas zeaxanthin was not found in any of the cultivars analysed. Marked differences were observed between the same potato cultivars grown in New Zealand and the Netherlands. Therefore cultivars were analysed over a second growing season to assess stability in carotenoids composition. The carotenoid profiles of the potato tubers grown for two different seasons showed highly significant differences between the cultivars, the seasons, the carotenoid pigments, and all combinations of interactions, indicating the complex nature of factors influencing carotenoid composition. Reflectance colorimeter measurement of yellow hue component in this study confirmed that the higher the total carotenoid content, the greater the yellow intensity colour. Eight cultivars were grown at three locations in New Zealand and Agria and Desiree were grown at eight locations in the Netherlands to further investigate the stability of carotenoid composition. Highly significant differences were observed between the cultivars, the locations, the carotenoid pigments, and all combinations of interactions, which emphasises that changes in carotenoid composition are complex and the responses are not consistent across cultivars. Reflectance colorimeter measurement of yellow hue component confirmed the relationship between the yellow colour intensity of tuber flesh, as well as confirming the interaction between colour and locations. Disease and post harvest storage conditions markedly influenced the levels of total carotenoid, neoxanthin, violaxanthin, zeaxanthin, lutein and β-carotene in potatoes. The magnitude of these effects depends on the cultivar, time of storage, and the intensity of powdery scab symptoms. Results showed that long term storage resulted in the accumulation of neoxanthin, violaxanthin and zeaxanthin with a concomitant decreased of lutein, β-carotene and total carotenoid content. Genotypes infected with disease (lower and higher scab score) resulted in accumulation of violaxanthin, β-carotene and total carotenoid with a concomitant decreased in neoxanthin and lutein. A high-throughput model system for investigating carotenoid biogenesis in potato tubers was developed. This involved in vitro potato minitubers and was validated by assessing the effects of environmental variables, such as drought stress, light intensity and nutrient availability on carotenoid accumulation. Light influenced the presence of zeaxanthin, whereas water stress and nutrient strength influenced the accumulation of neoxanthin and violaxanthin. Although these factors had an effect on the carotenoid content and profile, the most influential factor appeared to be cultivar selection.

carotenoids

potato tuber

neoxanthin

violaxanthin

zeaxanthin

lutein

b-carotene

total carotenoid

potato minituber

genotype

growing season

location

storage condition

disease symptom