T. S. Chang, Int. J. Mol. Sci, vol.10, pp.2440-2475, 2009.

E. De-clerq and Y. Mehellou, J. Med. Chem, vol.53, pp.521-538, 2010.

K. E. Rittle, B. E. Evans, M. G. Bock, R. M. Dipardo, R. M. Freidinger et al., J. Med. Chem, vol.31, pp.2235-2246, 1988.

L. Michaelis, M. L. Menten, K. A. Johnson, and R. S. Goody, J. Biochem, vol.50, pp.8264-8269, 2011.

A. Rogers and Y. Gibon, Plant Metabolic Networks, pp.71-103, 2009.

D. B. Lineweaver, J. Am. Chem. Soc, vol.56, pp.658-666, 1934.

G. S. Eadie, J. Biol. Chem, vol.146, pp.85-93, 1942.

B. H. Hofstee, Nature, pp.1296-1298, 1959.

C. S. Hanes, Biochem. J, vol.26, pp.1406-1421, 1932.

J. B. Haldane, Nature, p.179, 1957.

S. Belaz, T. Rattier, P. Lafite, P. Moreau, F. H. Routier et al., Carbohydr Res, pp.31-38, 2015.

R. Uchida, S. Ishikawa, and H. Tomoda, Acta Pharm. Sci. B, vol.4, pp.141-145, 2014.

L. S. Blondin, L. Wiesmuller, A. Gilles, and O. Barzu, Anal. Chem, vol.220, pp.219-221, 1994.

I. M. Choma and E. M. Grzelak, J. Chrom. A, vol.1218, pp.2684-2691, 2011.

S. Dewanjee, M. Gangopadhyay, N. Bhattacharya, R. Khanra, and T. K. Dua, JPA, vol.5, pp.75-84, 2015.

S. S. Teh and G. E. Morlock, Food Chem, vol.187, pp.460-468, 2015.

A. A. Fuchs and . Homans, J. Chrom. A, vol.51, pp.327-329, 1970.

J. K. Marston and K. Hostettmann, Phytochem. Anal, vol.13, pp.51-54, 2002.

B. Hmicha, C. A. Simoes-pires, A. Marston, and K. Hostettmann, Phytochem. Anal, vol.20, pp.511-515, 2009.

I. A. Ramallo, S. A. Zacchino, and R. L. Furlan, Phytochem. Anal. : PCA, vol.17, pp.15-19, 2005.

S. Hassan, Phytochem. Anal, vol.23, pp.405-407, 2012.

S. Momtaz, B. M. Mapunya, P. J. Houghton, C. Edgerly, A. Hussein et al., J. ethnopharmacol, vol.119, pp.507-512, 2008.

J. Zhou, Q. Tang, T. Wu, and Z. Cheng, Phytochem. Anal, vol.28, pp.115-124, 2017.

G. E. Morlock, Instrumental Methods for the Analysis and Identification of bioactive molecules, pp.101-121, 2014.

M. N. Taha, M. B. Krawinkel, and G. E. Morlock, J. Chrom. A, vol.1394, pp.137-147, 2015.

G. Morlock and W. Schwack, Trends in Analytical Chemistry, vol.29, pp.1157-1171, 2010.

Á. M. Móricz, E. Fornal, W. Jesionek, B. Majer-dziedzic, and I. M. Choma, Chromatographia, vol.78, pp.707-716, 2015.

A. M. Moricz, T. T. Habe, A. Boszormenyi, P. G. Ott, and G. E. Morlock, J. Chrom. A, vol.1422, pp.310-317, 2015.

S. S. Teh and G. E. Morlock, Food Chem, vol.187, pp.460-468, 2015.

S. Krüger, A. Bergin, and G. E. Morlock, Food Chem, vol.243, pp.258-268, 2017.

Á. M. Móricz, D. Krüzselyi, Á. Alberti, A. Darcsi, G. Horváth et al., J. Chrom. A, 2017.

B. Bothner, R. Chavez, J. Wei, C. Strupp, Q. Phung et al., J. Biol. Chem, vol.275, pp.13455-13459, 2000.

X. Ge, T. L. Sirich, M. K. Beyer, H. Desaire, and J. A. Leary, Anal. Chem, vol.73, pp.5078-5082, 2001.

D. Fabris, J. Am. Chem, vol.122, pp.8779-8780, 2000.

J. Norris, J. P. Whitelegge, K. F. Faull, T. Toyokuni, and . Biochem, , vol.40, pp.3774-3779, 2001.

T. Steinkamp, A. Liesener, and U. Karst, Anal. Bioanal. Chem, vol.378, pp.1124-1128, 2004.

E. D. Lee, W. Mück, J. D. Henion, and T. R. Covey, J. Am. Chem. Soc, pp.4600-4604, 1989.

D. L. Zechel, L. Konermann, S. G. Ithers, and D. J. Douglas, Biochem, vol.37, pp.7664-7669, 1998.

D. J. Wilson and L. Konermann, Anal. Chem, vol.75, pp.6408-6414, 2003.

F. Y. Hsieh, X. Tong, T. Wachs, B. Ganem, and J. Henion, Anal. Biochem, vol.229, pp.20-25, 1995.

A. R. De-boer, T. Letzel, D. A. Van-elswijk, H. Lingeman, W. M. Niessen et al., Anal. Chem, vol.76, pp.3155-3161, 2004.

M. Karas and F. Hillenkamp, Anal. Chem, vol.60, pp.2299-2301, 1988.

K. Tanaka, H. Waki, Y. Ido, S. Akita, Y. Yoshida et al., Rapid Commun Mass Spectrom, vol.2, pp.151-153, 1988.

A. I. Gusev, D. C. Muddiman, A. Proctor, A. G. Sharkey, D. M. Hercules et al., Rapid Commun Mass Spectrom, vol.10, pp.1215-1218, 1996.

J. C. Brès, F. Morvan, I. Lefebvre, J. J. Vasseur, A. Pompon et al., J. Chrom. B, vol.753, pp.123-130, 2001.

U. Puapaiboon, J. Jai-nhuknan, and J. A. Cowan, Nucleic Acids Res, vol.29, pp.3652-3656, 2001.

R. Rathore, J. J. Corr, D. T. Lebre, W. L. Seibel, and K. D. Greis, Rapid Commun Mass Spectrom, vol.23, pp.3293-3300, 2009.

M. Kang, A. Tholey, and E. Heinzle, Rapid Commun Mass Spectrom, vol.15, pp.1327-1333, 2001.

D. Bungert, E. Heinzle, and A. Tholey, Anal. Biochem, vol.326, pp.167-175, 2004.

D. B. Wall, J. W. Finch, and S. A. Cohen, Rapid Commun Mass Spectrom, vol.18, pp.1482-1486, 2004.

M. Field, D. Papac, and A. Jones, Anal. Biochem, vol.239, pp.92-98, 1996.

E. J. Zaluzec, D. A. Gage, J. Allison, and J. T. Watson, J. Am. Soc. Mass. Spectrom, vol.5, pp.230-237, 1993.

S. Xu, C. Pan, L. Hu, Y. Zhang, Z. Guo et al., Electrophoresis, vol.25, pp.3669-3676, 2004.

H. Matsumoto, E. S. Kahn, and N. Komori, Anal. Biochem, vol.260, pp.188-194, 1998.

J. J. Thomas, Z. Shen, J. E. Crowell, M. G. Finn, and G. Siuzdak, Proc Natl Acad Sci, vol.98, pp.4932-4937, 2001.

C. K. Chiang, Y. W. Lin, W. T. Chen, and H. T. Chang, Nanomedicine, issue.6, pp.530-537, 2010.

M. W. Duncan, H. Roder, and S. W. Hunsucker, Brief Funct Genomic Proteomic, vol.7, pp.355-370, 2008.

J. Wei, J. M. Buriak, and G. Siuzdak, Nature, pp.243-246, 1999.

J. Villanueva, O. Yanes, E. Querol, L. Serrano, and F. X. Aviles, Anal. Chem, vol.75, pp.3385-3395, 2003.

O. Yanes, J. Villanueva, E. Querol, and F. V. Aviles, Nat Protoc, vol.2, pp.119-130, 2007.

A. Salwinski, D. D. Silva, R. Delépée, and B. Maunit, JASMS, vol.25, pp.538-547, 2014.

O. Yanes, J. Villanueva, E. Querol, and F. V. Aviles, Mol. Cell. Proteomics, vol.4, pp.1602-1613, 2005.

K. Trummal, H. Vija, J. Subbi, and J. Siigur, Biochim. Biophys. Acta, pp.331-336, 2000.

G. Covaleda, S. A. Trejo, E. Salas-sarduy, M. A. Rivero, M. A. Chavez et al., J. Proteomics, pp.75-92, 2017.

P. Cuatrecasas and M. Wilchek, Biochem. Biophys. Res. Commun, vol.33, pp.235-239, 1968.

J. Kasai, Y. Oda, M. Nishikata, and S. Ishii, J. Chromatogr, vol.376, pp.33-47, 1986.

B. Zhang, M. M. Palcic, D. C. Schriemer, G. Alvarez-manilla, M. Pierce et al., Anal. Biochem, vol.299, pp.173-182, 2001.

D. A. Annis, E. Nickbarg, X. Yang, M. R. Ziebell, and C. E. Whitehurst, Curr. Opin. Chem. Biol, vol.11, pp.518-526, 2007.

A. M. Girelli and E. Mattei, J. Chrom. B, vol.819, pp.3-16, 2005.

H. Zou, Q. Luo, and D. Zhou, J. Biochem. Biophys. Methods, vol.49, pp.199-240, 2001.

D. M. Prazeres and J. M. Cabral, Enzyme Microb.Technol, vol.16, pp.738-750, 1994.

R. Mallik and D. S. Hage, J. Sep. Sci, vol.29, pp.1686-1704, 2006.

X. J. Huang, A. G. Yu, and Z. K. Xu, Bioresour Technol, vol.99, pp.5459-5465, 2008.

J. M. Garbisu, M. J. Gil, D. O. Bazin, J. L. Hall, and . Serra, J. Appl. Phycol, vol.3, pp.221-234, 1991.

J. Heo, K. J. Thomas, G. H. Seong, and R. M. Crooks, Anal. Chem, vol.75, pp.22-26, 2003.

X. Zheng, Z. Li, S. Beeram, M. Podariu, R. Matsuda et al., J. Chrom. B, vol.968, pp.49-63, 2014.

J. Hirabayashi, T. Hashidate, Y. Arata, N. Nishi, T. Nakamura et al., Biochim. Biophys. Acta, pp.232-254, 2002.

E. Pfaunmiller, A. C. Moser, and D. S. Hage, Methods, vol.56, pp.130-135, 2012.

E. Calleri, C. Temporini, E. Perani, C. Stella, S. Rudaz et al., J. Chrom. A, vol.1045, pp.99-109, 2004.

G. Massolini and E. Calleri, J. Sep. Sci, vol.28, pp.7-21, 2004.

J. Yin, T. Xu, N. Zhang, and H. Wang, Anal. Chem, vol.88, pp.7730-7737, 2016.

C. Temporini, E. Perani, F. Mancini, M. Bartolini, E. Calleri et al., , vol.1120, pp.121-131, 2006.

J. Sproß and A. Sinz, Anal. Chem, vol.82, pp.1434-1443, 2010.

K. Kaisai and S. Ishii, J. Biochem, vol.77, pp.261-264, 1975.

E. Calleri, C. Temporini, and G. Massolini, J. Pharm. Biomed. Anal, vol.54, pp.911-925, 2011.

E. S. Ng, F. Yang, A. Kameyama, M. M. Palcic, O. Hindsgaul et al., Anal. Chem, vol.77, pp.6125-6133, 2005.

E. Calleri, G. Fracchiolla, R. Montanari, G. Pochetti, A. Lavecchia et al., J. Chrom. A, vol.1232, pp.84-92, 2012.

Y. Ogata, L. Scampavia, T. L. Caatee, E. Faa, and F. Tuue?ek, Anal. Biochem, vol.331, pp.161-168, 2004.

T. R. Besanger, R. J. Hodgson, D. Guillon, and J. D. Brennan, Anal. Chim. Acta, vol.561, pp.107-118, 2006.

E. Calleri, S. Cerruti, G. Cristalli, C. Martini, C. Temporini et al., J. Med. Chem, vol.53, pp.3489-3501, 2010.

A. Gallifuoco, F. Alfani, M. Cantarella, G. Spagna, and P. G. Pifferi, Process Biochem, vol.35, pp.179-185, 1999.

C. Yao, L. Qi, J. Qiao, H. Zhang, F. Wang et al., Talanta, vol.82, pp.1332-1337, 2010.

J. A. Ho, L. C. Wu, N. C. Fan, M. S. Lee, H. Y. Kuo et al., Talanta, pp.391-396, 2007.

Y. Cheng, E. Ho, B. Subramanyam, and J. L. Tseng, J. Chrom. B, vol.809, pp.67-73, 2004.

N. R. Mohamad, N. H. Marzuki, N. A. Buang, F. Huyop, and R. A. Wahab, Biotechnol. Biotechnol. Equip, vol.29, pp.205-220, 2015.

S. Nisha, S. Arun, and N. Gobi, Chem. Sci, vol.3, pp.148-155, 2012.

T. L. De-albuquerque, S. Peirce, N. Rueda, A. Marzocchella, L. R. Gonçalves et al., Process Biochem, vol.51, pp.875-880, 2016.

L. Fang, B. Liang, G. Yang, Y. Hu, Q. Zhu et al., Biosen. bioelectron, vol.56, pp.91-96, 2014.

C. Mateo, J. M. Palomo, G. Fernandez-lorente, J. M. Guisan, and R. Fernandez-lafuente, Enzyme Microb. Technol, vol.40, pp.1451-1463, 2007.

R. C. Rodrigues, C. Ortiz, A. Berenguer-murcia, R. Torres, and R. Fernandez-lafuente, Chem. Soc. Rev, vol.42, pp.6290-6307, 2013.

T. Jesionowski, J. Zdarta, and B. Krajewska, Adsorption, vol.20, pp.801-821, 2014.

L. D. Marquez, B. V. Cabral, F. F. Freitas, V. L. Cardoso, and E. J. Ribeiro, J. Mol. Catal. B. Enzym, vol.51, pp.86-92, 2008.

R. A. Sheldon, Org. Process Res. Dev, vol.15, pp.213-223, 2011.

H. Tran, N. Nosworthy, M. Bilek, and D. R. Mckenzie, Biomass Bioenergy, vol.81, pp.234-241, 2015.

Y. Chen, E. T. Kang, K. G. Neoh, and K. L. Tan, Eur. Polym. J, vol.36, pp.2095-2103, 2000.

G. M. Whitesides, A. L. Lamotte, O. Adalsteinsson, R. F. Baddour, A. C. Chmurny et al., J. Mol. Catal, vol.6, pp.177-198, 1979.

C. K. Chow and S. P. Palecek, Biotechnol Prog, vol.20, pp.449-456, 2004.

F. Rusmini, Z. Zhong, and J. Feijen, Biomacromolecules, vol.8, pp.1775-1789, 2007.

J. M. Nelson, E. G. Grifin, and J. , , pp.1109-1115, 1916.

K. Nakanishi, T. Sakiyama, Y. Kumada, K. Imamura, and H. Imanaka, Curr. proteomics, vol.5, pp.161-175, 2008.

H. Suzuki, Y. Ozawa, and H. Maeda, Agr. Biol. Chem, vol.30, pp.807-812, 1966.

H. Maeda, H. Suzuki, and A. Sakimae, Biotechnol. Bioeng, pp.403-412, 1973.

V. Vallejo-becerra, M. E. Marin-zamora, J. M. Vasquez-bahena, F. Rojas-melgarejo, M. E. Hidalgo-lara et al., J. Agri. Food Chem, vol.56, pp.1392-1397, 2008.

H. P. Jennissen and G. Botzet, J. Mol. Recognit, vol.6, pp.117-130, 1993.

P. J. Gerber and J. A. Heitmann, Cellulose, vol.4, pp.255-268, 1997.

T. Y. Nara, H. Togashi, C. Sekikawa, K. Inoh, K. Hisamatsu et al., J. Mol. Catal. B. Enzymatic, vol.64, pp.107-112, 2010.

D. Kim and A. E. Herr, Biomicrofluidics, vol.7, p.41501, 2013.

J. Anzai, T. Hoschi, S. Lee, and T. Osa, Sens. Actuators B, pp.73-75, 1993.

A. A. Homaei, R. Sariri, F. Vianello, and R. Stevanato, J. Chem. Biol, vol.6, pp.185-205, 2013.

L. N. Amankwa and W. G. Kuhr, Anal. Chem, vol.64, pp.1610-1613, 1992.

G. B. Sigal, C. Bamdad, A. Barberis, J. Strminger, and G. M. Whitesides, Anal. Chem, vol.68, pp.490-497, 1996.

J. Yakovleva, R. Davidsson, M. Bengtsson, T. Laurell, and J. Emnéus, Biosens. Bioelectron, vol.19, pp.21-34, 2003.

N. M. Green, Biochem. J, vol.89, pp.585-591, 1963.

E. P. Diamandis and T. K. Christopoulos, Clin. Chem, vol.37, pp.625-636, 1991.

D. Brady and J. Jordaan, Biotechnol. Lett, pp.1639-1650, 2009.

T. Mori, T. Tosa, and I. Chibata, Cancer Res, vol.34, pp.3066-3068, 1974.

N. Munjal and S. K. Sawhney, Enzyme Microb. Technol, vol.30, pp.613-619, 2002.

N. Ortega, M. D. Busto, and M. Perez-mateos, Bioresour. Technol, vol.64, pp.105-111, 1998.

S. N. Pennington, H. D. Brown, A. B. Patel, and C. O. Knowles, Biochim. Biophys Acta, vol.167, pp.476-479, 1968.

A. F. Mansor, N. A. Mohidem, W. M. Zawawi, N. S. Othman, S. Endud et al., Mat, Micropor. Mesopor. Mat, vol.220, pp.308-314, 2016.

A. Rai, A. Prabhune, and C. C. Perry, Mater.Sci. Engineering C, vol.32, pp.785-789, 2012.

D. Pirozzi, M. Abagnale, L. Minieri, P. Pernice, and A. Aronne, Chem. Eng. J, vol.306, pp.1010-1016, 2016.

Y. Inada, S. Hirose, M. Okada, and H. Mihama, Enzyme Microb. Technol, vol.20, pp.188-192, 1975.

N. Munjal and S. K. Sawhney, Enzyme Microb. Technol, vol.30, pp.613-619, 2002.

E. J. Mammarella and A. C. Rubiolo, J. Mol. Catal. B: Enzymatic, vol.34, pp.7-13, 2005.

M. F. Silva, D. Rigo, V. Mossi, R. M. Dallago, P. Henrick et al., Food Bioprod. Process, vol.91, pp.54-59, 2013.

S. K. Jha and S. F. Souza, J. Biochem. Bioph. Meth, vol.62, pp.215-218, 2005.

M. A. Nawaz, A. Karim, Z. Bibi, H. U. Rehman, A. Aman et al., J.Taiwan Inst. Chem. Eng, vol.64, pp.31-38, 2016.

M. M. Magdy, Biotechnol. Biopol, 2011.

S. Matsuura, R. Ishii, T. Itoh, S. Hamakawa, T. Tsunoda et al., Chem. Eng. J, vol.167, pp.744-749, 2011.

K. Sakai-kato, M. Kato, and T. Toyo'oka, Anal. Chem, vol.75, pp.388-393, 2003.

K. Meena and T. K. Raja, , vol.3, pp.606-608, 2004.

J. Wiley, Biotechnol. Bioeng, vol.25, pp.613-617, 1983.

M. Ungurean, C. Paul, and F. Peter, Bioprocess and biosystems engineering, vol.36, pp.1327-1338, 2013.

K. L. Chang, J. Thitikorn-amorn, S. H. Chen, J. F. Hsieh, K. Ratanakhanokchai et al., Bioresour. Technol, vol.102, pp.519-523, 2011.

G. M. Whitesides, O. Adalsteinsson, R. M. Baddour, A. C. Chmurny, C. K. Colton et al., J. Mol. Catal, vol.6, pp.177-198, 1979.

D. T. Nguyen, M. Smit, B. Dunn, and J. I. Zink, Chem. Mater, vol.14, pp.4300-4306, 2002.

S. Rehman, H. N. Bhatti, M. Bilal, and M. Asgher, Int. J. Biol. Macromol, vol.91, pp.1161-1169, 2016.

S. Talekar, S. Waingade, V. Gaikwad, S. Patil, and N. Nagavekar, J. Biochem. Tech, vol.3, pp.349-353, 2012.

F. Kartal, M. H. Janssen, F. Hollmann, R. A. Sheldo, and A. K?l?, J. Mol. Catal. B. Enzymatic, vol.71, pp.85-89, 2011.

L. Zhou, H. Mou, J. Gao, L. Ma, Y. He et al., Chin. J. Chem. Eng, vol.25, pp.487-492, 2017.

S. Wang, D. Zheng, L. Yin, and F. Wang, Enzyme Microb. Technol, vol.107, pp.22-31, 2017.

S. Talekar, V. Ghodake, A. Kate, N. Samant, C. Kumar et al., AJBAS, vol.4, pp.4760-4765, 2010.

R. Reshmi, S. Sugunan, and J. Mol, Catal. B.Enzymatic, pp.111-118, 2013.

T. Nguyen and K. L. Yang, J. Colloid Interface Sci, vol.428, pp.146-151, 2014.

L. Sutarlie and K. L. Yang, J. Colloid Interface Sci, vol.411, pp.76-81, 2013.

R. Moaddel, M. P. Marszatt, F. Bighi, Q. Yang, X. Duan et al., Anal. Chem, p.79, 2007.

C. Temporini, G. Pochetti, G. Fracchiolla, L. Piemontese, R. Montanari et al., J. Chrom. A, vol.1284, pp.36-43, 2013.

E. Kaaku?, ?. Pekkaad??, and J. Mol, Catal. B. Enzymatic, vol.56, pp.13-19, 2009.

M. J. Yoo, J. E. Schiel, and D. S. Hage, J. Chrom. B, vol.878, pp.1707-1713, 2010.

M. R. Sobansky and D. S. Hage, Anal. Bioanal. Chem, vol.403, pp.563-571, 2012.

M. Kahraman, G. Bayramoglu, N. Kayamanapohan, and A. Gungor, Food Chem, vol.104, pp.1385-1392, 2007.

Y. Ogata, L. Scampavia, T. L. Carter, E. Fan, and F. Turecek, Anal. Biochem, vol.331, pp.161-168, 2004.

H. Luo, L. Chen, Z. Li, Z. Ding, and X. Xu, Anal. Chem, vol.75, pp.3994-3998, 2003.

S. Ota, S. Miyazaki, H. Matsuoka, K. Morisato, Y. Shintani et al., J Biochem Biophys Methods, vol.70, pp.57-62, 2007.

M. E. Buck, J. Zhang, and D. M. Lynn, Advanced Materials, vol.19, pp.3951-3955, 2007.

C. Ispas, I. Sokolov, and S. Andreescu, Anal. Bioanal. Chem, vol.393, pp.543-554, 2009.

T. N. Nwagu, B. N. Okolo, and H. Aoyagi, AJB, vol.10, pp.15989-15997, 2011.

M. Y. Ar?a, G. Baao?lu, and N. B?çak, Process Biochem, vol.39, pp.2007-2017, 2004.

Y. Ren, J. G. Ribera, L. He, H. Kulkarni, D. Lee et al., BMC Biotechnol, vol.11, pp.1-8, 2011.

N. A. Izmailov, M. S. Schraiber, and F. , , 1938.

E. Stahl, G. Schroter, and R. Renz, Pharmazie, vol.11, pp.633-637, 1956.

J. G. Kirchner, J. M. Miller, and R. C. Rice, J. Agric. Food Chem, vol.2, pp.1031-1033, 1954.

N. Grinberg, , 1990.

M. Lato, B. Brunelli, and G. Ciuffini, J. Chromatogr, vol.34, pp.26-34, 1968.

C. Michalec, J. Chrom. A, vol.41, pp.267-269, 1969.

B. Fuchs, R. Suss, K. Teuber, M. Eibisch, and J. Schiller, J. Chrom. A, vol.1218, pp.2754-2774, 2011.

I. D. Wilson, Impregnation Techniques: Thin-Layer Chromatography, pp.3065-3071, 2000.

L. R. Snyder, J. Chrom. A, vol.656, pp.537-547, 1993.

M. Ghebregzabher, S. Rufini, B. Monaldi, and M. Lato, J. Chrom. A, vol.127, pp.133-162, 1976.

H. K. Hsieh and . Berry, J. Planar Chromatogr, vol.5, pp.118-123, 1992.

F. Bosch-reig, M. J. Marcotte, and M. D. Minana, Talanta, vol.39, pp.1493-1498, 1992.

T. Koga, T. Horikoshi, T. Fujiwara, and S. Hamada, Microbiol. Immunol, vol.32, pp.25-31, 1988.

G. J. Mcdougall and S. C. Fry, Planta, vol.175, pp.412-416, 1988.

D. W. Vomhof and T. C. Tucker, J. Chrom. A, vol.17, pp.300-306, 1965.

L. W. Doner and L. M. Biller, J. Chrom. A, vol.287, pp.391-398, 1984.

R. Klaus, W. Fischer, and H. E. Hauck, Chromatographia, vol.28, pp.364-366, 1989.

Y. Goso, Anal. Biochem, vol.188, pp.181-186, 1990.

G. Lodi, V. Brandolini, E. Menziani, and B. Tossi, J. Planar Chromatogr, vol.29, pp.29-33, 1994.

R. Klaus and H. E. Hauck, Chromatographia, pp.467-472, 1990.

J. L. Magnani, Anal. Biochem, vol.150, pp.13-17, 1985.

M. Lato and G. Ciuffini, J. Chrom. A, vol.39, pp.407-417, 1969.

N. Ilzima, T. Nagumo, and J. Chrom, , vol.193, pp.464-469, 1980.

A. Panahi, A. Izadi, F. Abolhasani, E. S. Abutorabi, L. Abedini et al., JACR, vol.9, pp.52-58, 2009.

S. Adachi, J. Chrom. A, vol.17, pp.295-299, 1965.

R. D. Fell, Comp. Biochem. Physiol, pp.539-544, 1990.

J. F. Szumilo, Acta Pol Pharm, vol.58, pp.3-8, 2001.

J. Briggs, P. Finch, M. C. Matulewicz, and H. Weigel, Carbohydr. Res, vol.97, pp.181-188, 1981.

Y. Israëli and N. Morel-desrosiers, Carbohydr. Res, vol.263, pp.25-33, 1994.

R. Gauch and E. Baumgartner, J. Chrom. A, vol.174, pp.195-200, 1979.

C. Anderton, J. Sherma, and J. P. Chromatogr, , vol.6, pp.51-54, 1993.

J. Vajda, J. Planar Chromatogr, vol.1, pp.347-348, 1988.

J. F. Robyt, Carbohydrate research, pp.187-202, 1994.

W. Blom, H. H. Kelholt-dijkman, J. G. Huijmans, and M. C. Loonen, Clin. Chim. Acta, vol.134, pp.221-227, 1983.

A. Dini, E. Ramundo, and F. Senatore, Biochem. Syst. Ecol, vol.17, pp.559-561, 1989.

P. Poukens-renwart, J. Planar Chromatogr, vol.4, pp.77-79, 1991.

T. Mezzetti, S. Rufini, and G. Ciuffini, , vol.63, pp.329-342, 1971.

J. K. Lin, Anal. Chem, vol.59, pp.1320-1326, 1987.

G. Rosenfelder, J. Chang, C. Schönenberger, D. G. Braun, and H. Towbin, Anal. Biochem, vol.147, pp.156-165, 1985.

K. Muramoto, R. Goto, and H. Kamiya, Nippon suisan gakkaishi, vol.56, pp.967-971, 1990.

P. Jackson, Anal. Biochem, vol.196, pp.238-244, 1991.

C. Chiesa and C. Horvath, J. Chrom. A, vol.645, pp.337-352, 1993.

A. Puscas, A. Hosu, C. Cimpoiu, and J. Chrom, , pp.132-135, 2013.

K. Anderson, S. C. Li, and Y. T. Li, Anal. Biochem, vol.287, pp.337-339, 2000.

J. Mes and L. Kamm, J. Chrom. A, vol.38, pp.120-125, 1968.

W. M. Lamkin, D. N. Ward, and E. F. Walborg, Anal. Biochem, vol.17, pp.485-494, 1966.

L. M. Wolfrom and G. Schwab, J. Chrom. A, vol.22, pp.474-476, 1966.

J. L. Meyertons, G. L. Cote, and M. P. Lechevalier, The actinomycetes, vol.20, pp.182-192, 1988.

I. S. Menzies, J. N. Mount, and M. J. Wheeler, Ann. Clin. Biochem, vol.15, pp.65-76, 1978.

I. S. Menzies, J. Chrom. A, vol.81, pp.109-127, 1973.

D. J. Bell and M. Q. Talukder, J. Chrom. A, vol.49, pp.469-472, 1970.

X. Di, K. K. Chan, H. W. Leung, and C. W. Huie, J. Chrom. A, vol.1018, pp.85-95, 2003.

P. J. Deschepper and S. P. Bessman, J. Biol. Chem, vol.240, pp.1670-1674, 1964.

R. D. Hartley and E. C. Jones, Phytochem, vol.15, pp.305-307, 1976.

D. W. Vomhof, J. Truitt, and T. C. Tucker, J. Chromatogr, vol.21, pp.335-337, 1966.

K. Kakehi and S. Honsa, J. Chrom. A, vol.379, pp.27-55, 1986.

N. S. Han and J. F. Robyt, Carbohydr. Res, vol.313, pp.135-137, 1998.

M. Karas, D. Bachmann, and F. Hillenkamp, Anal. Chem, vol.57, pp.2935-2939, 1985.

R. Knochenmuss and R. Zenobi, Chem. Rev, vol.103, pp.441-452, 2003.

T. C. Chiu, L. C. Chang, C. K. Chiang, and H. T. Chang, JASMS, vol.19, pp.1343-1346, 2008.

H. Kawasaki, T. Watanabe, and R. Arakawa, J. Phys. Chem, vol.111, pp.16278-16283, 2007.

K. H. Lee, C. K. Chiang, Z. H. Lin, and H. T. Chang, Rapid Commun Mass Spectrom, vol.21, pp.2023-2030, 2007.

T. Watanabe, H. Kawasaki, T. Yonezawa, and R. Arakawa, J Mass spectrom, vol.43, pp.1063-1071, 2008.

W. Y. Chen and Y. C. Chen, Anal. Bioanal. Chem, vol.386, pp.699-704, 2006.

G. Montsko, A. Vaczy, G. Maasz, E. Mernyak, E. Frank et al., Anal. Bioanal. Chem, vol.395, pp.869-874, 2009.

A. J. Dempster, , vol.11, p.316, 1918.

J. B. Fenn, C. K. Meng, S. F. Wong, and C. M. Whitehouse, Science, vol.246, pp.64-71, 1989.

C. M. Park, K. Lee, S. H. Jun, S. H. Song, and J. Song, J. Chrom. B, pp.76-83, 2017.

J. Duval, C. Colas, V. Pecher, M. Poujol, J. Tranchant et al., Comptes Rendus Chimie, vol.19, pp.1113-1123, 2016.

H. Stutz, Electrophoresis, vol.26, pp.1254-1290, 2005.

P. Kebarle, J Mass spectrom, vol.35, pp.804-817, 2000.

L. Rayleigh, Phil. Mag, vol.14, p.184, 1882.

M. Dole, J. Chem. Phys, vol.49, p.2240, 1968.

B. A. Iribarne, J. Chem. Phys, vol.64, p.2287, 1976.

. Références,

M. E. Light, S. J. Afr, and . Bot, , vol.75, pp.383-385, 2009.

E. K. Lim and D. Bowles, Curr. Opin. Biotechnol, vol.23, pp.271-277, 2012.

J. and M. A. Balunas, Life Sciences, vol.78, pp.431-441, 2005.

C. Tomelleri and D. Pellegrina, Cell Prolif, vol.43, pp.130-138, 2010.

I. M. Abu-reidah, M. S. Ali-shtayeh, R. M. Jamous, D. Arraez-roman, and A. Segura-carretero, Food Chem, vol.166, pp.179-191, 2015.

L. F. Wu, K. F. Wang, X. Mao, W. Y. Liang, W. J. Chen et al., Molecules, vol.21, pp.1-15, 2016.

R. Campos-olivas, Curr Top Med Chem, vol.11, pp.43-67, 2011.

C. A. Lepre, Methods Enzymol, vol.493, pp.219-239, 2011.

S. Agatonovic-kustrin, D. W. Morton, and A. P. Yusof, Mod Chem appl, p.3, 2015.

R. Kawai, K. Igarashi, M. Kitaoka, T. Ishii, and M. Samejima, Carbohydr. Res, vol.339, pp.2851-2857, 2004.

L. Gu, T. Wu, and Z. Wang, JFST, vol.42, pp.131-136, 2009.

I. M. Choma and E. M. Grzelak, J. Chrom. A, vol.1218, pp.2684-2691, 2011.

E. Gattavecchia, D. Tonelli, and P. , Anal. Chim. Acta, vol.196, pp.259-265, 1987.

S. Belaz, T. Rattier, P. Lafite, P. Moreau, F. H. Routier et al., Carbohydr Res, pp.31-38, 2015.

J. A. Barnett, Microbiology, pp.557-567, 2003.

U. Andjelkovic, N. Jovic, P. Jovicic, Z. Bajt, Z. Mojovic et al., Food Chem, vol.168, pp.262-269, 2015.

S. M. Kotwal and V. Shankar, Biotechnol. Adv, vol.27, pp.311-322, 2009.

S. Kulshrestha, P. Tyagi, V. Sindhi, and K. S. Yadavilli, J. Pharm.Res, vol.7, pp.792-797, 2013.

T. Hura, M. Dziurka, K. Hura, A. Ostrowska, and K. Dziurka, J. Plant Physiol, vol.202, pp.1-9, 2016.

A. Sturm, Plant Physiol, vol.121, pp.1-7, 1999.

T. Roitsch and M. C. Gonzalez, Trends Plant Sci, vol.9, pp.606-613, 2004.

G. L. Miller, Anal. Chem, vol.31, pp.426-428, 1959.

F. Zhong, W. S. Tong, S. S. Zhou, K. M. Yip, S. L. Li et al., J. Food Drug Anal, 2017.

H. Xiaodong-sen and . Perreault, J. Chrom. A, vol.811, pp.47-59, 1998.

D. Hongyu, . Shi-fen, P. Mou, and . Jandik, J. Chrom. A, vol.966, pp.89-97, 2002.

X. Liu, N. Ai, H. Zhang, M. Lu, D. Ji et al., Carbohydr Res, vol.353, pp.111-114, 2012.

F. J. Moreno, R. Lopez-fandino, and A. Olano, Chromatographia, vol.53, pp.525-528, 2001.

A. I. Ruiz-matute, O. Hernandez-hernandez, S. Rodriguez-sanchez, M. L. Sanz, and I. Martinez-castro, J. Chrom. B, vol.879, pp.1226-1240, 2011.

G. L. Sassaki, L. M. Souza, R. V. Serrato, T. R. Cipriani, P. A. Gorin et al., J. Chrom. A, pp.215-222, 2008.

A. Rojas-escudero, E. Elizalde-galván, P. Rojo-callejas, and F. , J. Chrom. A, vol.1027, pp.117-120, 2004.

G. E. Morlock, J. Liq. Chromatogr. Relat Technol, vol.34, pp.902-919, 2011.

J. Dutta and A. Biswas, J. Chromatogr, vol.173, pp.379-387, 1979.

S. N. Fedosov, J. Brask, X. Xu, and J. A. Chrom, , vol.1218, pp.2785-2792, 2011.

L. Morschheuser, S. Mukusch, M. Riedner, H. Seitz, and S. Rohn, J. Chrom. B, pp.198-205, 2016.

S. Misra, A. K. Dutta, A. Ghosh, and J. Dutta, J. Chromatogr, vol.280, pp.313-320, 1983.

K. Nimptsch, R. Suss, T. Riemer, A. Nimptsch, M. Schnabelrauch et al., J. Chrom. A, pp.3711-3715, 2010.

C. P. Fu, S. Lirio, W. L. Liu, C. H. Lin, and H. Y. Huang, Anal. Chim. Acta, vol.888, pp.103-109, 2015.

C. Su, Anal. Chem, vol.79, pp.1626-1633, 2007.

M. Ghebregzabher, B. Monaldi, and M. Lato, J. Chromatogr, vol.127, pp.133-162, 1976.

R. D. Fell, Comp. Biochem. Physiol, pp.539-544, 1990.

, International conference on harmonisation of technical requirements for registration of pharmaceuticals for human use, 2005.

M. H. Motisariya, K. G. Patel, and P. A. Shah, Bulletin of Faculty of Pharmacy, vol.51, pp.233-241, 2013.

A. Pyka, M. Budzisz, and M. Dolowy, BioMed Res. Int, p.545703, 2013.

S. Guimarães, A. F. Somera, H. F. Terenzi, M. Polizeli, and J. A. Jorge, Process Biochem, vol.44, pp.237-241, 2009.

C. Li, Enzyme Microb. Technol, pp.24-32, 2014.

R. Schindler, B. Lendl, and R. Kellner, Vibrational spectroscopy, vol.16, pp.127-135, 1998.

D. Kehlbeck, M. T. Turnbull, and S. J. Kohler, J. Chem. Educ, pp.734-738, 2014.

F. Exnowitz, B. Meyer, and T. Hackl, Biochim. Biophys. Acta, pp.443-449, 2012.

G. P. Maitan-alfenas, E. M. Visser, and V. M. Guimarães, Curr. Opin. Food Sci, vol.1, pp.44-49, 2015.

K. Lahjouji, R. Storms, Z. Xiao, K. B. Joung, Y. Zheng et al., Applied Microbiol. Biotechnol, vol.75, pp.337-346, 2007.

M. Takahashi, H. Takahashi, Y. Nakano, T. Konishi, R. Terauchi et al., Appl. Environ. Biotechnol, vol.76, pp.6583-6590, 2010.

R. Den-haan, H. Kroukamp, D. Van-zyl, and W. H. Van-zyl, Process Biochem, vol.48, pp.1-12, 2013.

V. P. Gruno, M. Pettersson, G. Johansson, and G. , Biotechnol Bioeng, vol.86, pp.503-511, 2004.

A. Salwinski, D. Da, R. Silve, B. Delépée, and . Maunit, JASMS, vol.25, pp.538-547, 2014.

. Références,

L. N. Reymen, J. Balzarini, A. Holy, H. Dvorakova, and E. D. Clercq, Antiviral Res, vol.28, pp.343-357, 1995.

C. X. Tan and F. D. Boudinot, Adv Drug Deliv Rev, pp.117-151, 1999.

R. P. Iyer, S. Padmanabhan, G. Zhang, J. D. Morrey, and B. E. Korba, Curr. Opin. Pharmacol, vol.5, pp.520-528, 2005.

O. D. Carroll, Infect Disord Drug Targets, issue.6, pp.17-29, 2006.

K. K. Biron, Antiviral Res, vol.71, pp.154-163, 2006.

E. De-clerq, Nature Rev, vol.4, pp.928-940, 2005.

F. Zoulim and C. Dumontet, Nat. Rev Drug Discov, vol.12, pp.447-464, 2013.

J. Bourdais, S. Sarfati, C. Guerreiro, L. Lascu, J. Janin et al., J. Biol. Chem, vol.271, pp.7887-7890, 1996.

A. Varga, E. Graczer, L. Chaloin, K. Liliom, P. Zavodszky et al., Eur. J. Pharm. Sci, vol.48, pp.307-315, 2013.

T. Cihlar and A. S. Ray, Antiviral Res, vol.85, pp.39-58, 2010.

A. R. Van-rompay, M. Johansson, and A. Karlsson, Pharmacol. Ther, vol.100, pp.119-139, 2003.

D. Deville-bonne, C. E. Amri, P. Meyer, Y. Chen, L. A. Agrofoglio et al., Antiviral Res, vol.86, pp.101-120, 2010.

Y. Zhang, Y. Gao, X. Wen, and H. Ma, AJPS, vol.9, pp.65-74, 2014.

A. Lavie, Medicin. Chem, vol.4, pp.351-359, 2004.

J. Wang, J. Chattopadhyaya, S. Eriksson, and . Biochem, , vol.38, pp.16993-16999, 1999.

M. Welin, N. E. Mikkelsen, C. Carnrot, C. Zhu, L. Wang et al., Proc. Natl. Acad. Sci. USA, vol.101, pp.17970-17975, 2004.

F. Barroso, T. Flatmark, and . Biochem, , vol.42, pp.15158-15169, 2003.

K. Johansson, C. Ljungcrantz, W. Knecht, J. Piskur, B. Munch-petersen et al., Nat Struct Biol, vol.8, pp.616-620, 2001.

E. Sabini, S. Hazra, M. Konrad, and A. Lavie, J. Med. Chem, vol.50, pp.3004-3014, 2007.

I. Von-zabern, R. Untucht-grau, R. H. Schirmer, and E. F. Pai, Eur J Biochem, vol.68, pp.281-290, 1976.

N. Sekulic, L. Shuvalova, O. Spangenberg, M. Konrad, and A. Lavie, J Biol Chem, vol.277, pp.30236-30243, 2002.

N. Ostermann, R. Brundiers, M. Konrad, J. Reinstein, T. Veit et al., Biochem, vol.42, pp.2568-2577, 2000.

D. Segura-pena, N. Sekulic, S. Ort, M. Konrad, and A. Lavie, J Biol Chem, vol.279, pp.33882-33889, 2004.

Y. Chen, S. Gallois-montbrun, B. Schneider, M. Véron, S. Moréra et al., J. Mol. Biol, vol.332, pp.915-926, 2003.

C. Gondeau, L. Chaloin, P. Lallemand, B. Roy, C. Perigaud et al., Nucleic Acids Res, vol.36, pp.3620-3629, 2008.

M. Bong, K. H. Nam, K. S. Lee, Y. M. Chi, and K. Y. Hwang, FEBS Lett, vol.582, pp.3959-3965, 2008.

E. De-clerq, Methods Find Exp Clin Pharmacol, vol.2, pp.253-267, 1980.

E. D. Clercq, Biochem Pharmacol, vol.68, pp.2301-2315, 2004.

R. J. Whitley, J. Antimicrob. Chemother, vol.37, pp.151-159, 1996.

M. Baba, P. Herdewijn, E. De-clercq, J. Desmyter, and M. Vandeputte, Biochem. Biophys. Res. Commun, vol.142, pp.128-134, 1987.

H. E. Kaufman, Proc Soc Exp Biol Med, vol.109, pp.251-252, 1962.

P. Wutzler, Intervirology, vol.40, pp.343-356, 1997.

A. Markham, Drugs, vol.48, pp.455-484, 1994.

R. Pauwels, D. Schols, M. Baba, J. Desmyter, I. Rosenberg et al., Antimicrob Agents Chemother, vol.32, pp.1025-1030, 1988.

M. Nunez, B. Diaz, P. Rios, J. Gonzales-lahoz, and V. Soriano, AIDS, vol.16, pp.2352-2354, 2002.

K. K. Biron, Antiviral Res, vol.71, pp.154-163, 2006.

T. Schacker, D. M. Koelle, J. Zeh, R. Saltzman, R. Boon et al., Ann. Intern. Med, vol.128, pp.21-28, 1998.

B. Qaqish and D. J. Ritchie, Clin. Ther, vol.25, pp.3084-3099, 2003.

E. Murakami, M. Tsuge, N. Hiraga, H. Kan, T. Uchida et al., J. Infect, vol.72, pp.91-102, 2016.

P. Schelling, G. Folkers, and L. Scapozza, Anal. Biochem, vol.295, pp.82-87, 2001.

T. Spector, J. Biol. Chem, vol.250, pp.7372-7376, 1975.

F. N. Naguib and M. H. Kouni, Mol. Biochem. Parasitol, vol.194, pp.53-55, 2014.

H. R. Kaslow and C. R. Garrison, Anal. Biochem, vol.134, pp.495-498, 1983.

D. A. Vessey, M. Kelley, and J. S. Karliner, Anal. Biochem, vol.337, pp.136-142, 2005.

M. H. Hastie and P. Cohen, Nat Protoc, issue.1, pp.968-971, 2006.

C. M. Park, K. Lee, S. H. Jun, S. H. Song, and J. Song, J. Chrom. B, vol.1060, pp.76-83, 2017.

X. Peng, K. W. Cheng, B. Chen, F. Chen, and M. Wang, Biomed Chromatogr, vol.23, pp.170-174, 2009.

M. Pace, P. Pietta, and D. Agnellini, Anal Biochem, vol.176, pp.437-439, 1989.

M. Faria, M. S. Halquist, E. Kindt, W. Li, H. T. Karnes et al., J. Chrom. B, vol.907, pp.13-20, 2012.

P. K. Doharey, M. K. Suthar, A. Verma, V. Kumar, S. Yadav et al., Acta Trop, vol.133, pp.83-92, 2014.

G. Pulido-cejudoa, J. Leclerc, K. Jamison, and P. J. Gordon, J. Chrom. B, vol.660, pp.37-47, 1994.

C. C. Liu, J. S. Huang, D. L. Tyrrell, and N. J. Dovichi, Electrophoresis, vol.26, pp.1424-1431, 2005.

Y. Qi, Y. Li, and J. J. Bao, Anal. Biochem, vol.506, pp.31-44, 2016.

H. F. Tzeng and H. P. Hung, Electrophoresis, vol.26, pp.2225-2230, 2005.

H. Nehmé, S. Chantepie, J. Defert, P. Morin, D. Papy-garcia et al., Anal Bioanal. Chem, vol.407, pp.2821-2828, 2015.

J. Iqbal, L. Scapozza, G. Folkers, and C. E. Muller, J. Chrom. B, vol.846, pp.281-290, 2007.

H. Nehme, R. Nehme, P. Lafite, S. Routier, P. Morin et al., , pp.298-305, 2013.

R. N. Nehmé, P. Lafite, S. Routier, and P. Morin, J. Sep. Sci, vol.36, pp.2151-2157, 2013.

M. Welin, U. Kosinska, N. E. Mikkelsen, C. Carnrot, C. Zhu et al., Proc. Natl. acad. Sci. USA, vol.101, pp.17970-17975, 2004.

I. Li-de-la-sierra, A. M. Gilles, O. Bârzu, and M. Delarue, J Mol Biol, vol.311, pp.87-100, 2001.

N. Ostermann, R. Brundiers, M. Konrad, R. S. Goody, and A. Lavie, Structure, vol.8, pp.629-642, 2000.

J. Bourdais, S. Sarfati, C. Guerreiro, L. Lascu, J. Janin et al., J. Biol. Chem, vol.271, pp.7887-7890, 1996.

I. Lascu, J Bioenerg Biomembr, vol.32, pp.237-246, 2000.

S. Pochet, G. Labesse, M. Delepierre, and H. Munier-lehmann, Chembiochem, vol.4, pp.742-747, 2003.

M. M. Bradford, Anal. Biochem, vol.72, pp.248-254, 1976.

L. Toledo-sherman, J. J. Slon-usakiewicz, W. Ng, J. Dai, J. E. Foster et al., J. Med. Chem, vol.48, pp.3221-3230, 2005.

X. Zheng, Z. Li, S. Beeram, M. Podariu, R. Matsuda et al., J. Chrom. B, vol.968, pp.49-63, 2014.

W. Ng, J. R. Dai, J. J. Slon-usakiewicz, P. R. Redden, A. Pasternak et al., J. Biol. Screen, vol.12, pp.167-174, 2007.

J. Yin, T. Xu, N. Zhang, and H. Wang, Anal. Chem, vol.88, pp.7730-7737, 2016.

K. Kasai, Proc. Jpn. Acad., Series B, vol.90, pp.215-234, 2014.

A. Salwinski and B. Maunit, Rapid Commun. Mass Spectrom, vol.25, pp.3549-3554, 2011.

N. Tolonen, S. Schleich, and J. K. Locker, Mol. Biol. Cell, vol.12, pp.2031-2046, 2001.

G. B. Elion, Am J Med, vol.73, pp.7-13, 1982.

D. Topalis, C. Gasse, L. Dugué, J. Balzarini, S. Pochet et al., FEBS J, vol.272, pp.6254-6265, 2005.

D. Topalis, B. Collinet, C. Gasse, L. Dugue, J. Balzarini et al., The FEBS journal, vol.272, pp.6254-6265, 2005.

D. Topalis, U. Pradere, V. Roy, C. Caillat, A. Azzouzi et al.,

J. A. Eriksson, C. Alexandre, D. El-amri, P. Deville-bonne, J. Meyer et al., J. Med. chemistry, vol.54, pp.222-232, 2011.

A. Sturm, Primary structures, functions, and roles in plant development and sucrose partitioning, Plant Physiol, vol.121, pp.1-7, 1999.

H. Nadeem and M. H. Rashid, Microbial invertases: a review on kinetics thermodynamics, physiochemical properties, vol.50, pp.1202-1210, 2015.

S. Kulshrestha and P. Tyagi, Invertase and its applications-a brief review, J. Pharm. Res, vol.7, issue.9, pp.792-797, 2013.

J. Cerning-beroard, The use of Invertase for determination of sucrose. Application to cereals cereal products and other plant materials, Cereal Chem, vol.52, pp.431-438, 1975.

H. H. Sato and Y. K. Park, Invertase as an aid for fermentation of cane molasses into ethanol, Appl. Environ. Microbiol, vol.44, issue.4, pp.988-989, 1982.

J. E. Middleton and W. J. Griffiths, Rapid colorimetric micro-method for estimating glucose in blood and C.S.F using glucose oxidase, Br. Med. J, vol.2, pp.1525-1527, 1957.

L. Michaelis and M. L. Menten, Die kinetik der invertinwirkung, Biochemistry, vol.49, pp.333-336, 1913.

T. K. Vu and V. V. Le, Biochemical studies on the immobilization of the Enzyme Invertase (EC.3.2.1.26) in Aliginate Gel and its Kinetics, ASEAN Food J, vol.15, pp.73-78, 2008.

L. Bowski, R. Saini, D. Y. Ryu, and W. R. Vieth, Kinetic Modeling of the Hydrolysis of sucrose by invertase, Biotechnol. Bioeng, vol.13, pp.641-656, 1971.

S. Belaz and T. Rattier, Identification, biochemical characterization, and in-vivo expression of the intracellular invertase BfrA from the pathogenic parasite Leishmania major, Carbohydr. Res, vol.415, pp.31-38, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01187142

G. L. Miller, Use of dinitrosalicylic acid reagent for determination of reducing sugar, Anal. Chem, vol.31, pp.426-428, 1959.

K. Milosky, K. Wallace, A. Fenger, E. Schneider, and K. Bendinskas, Comparison of biochemical and chemical digestion methods for carbohydrates, Am. J. Undergrad. Res, vol.7, pp.7-18, 2008.

F. Carvalho, P. Paradiso, B. Saramago, A. M. Ferraria, A. M. Botelho et al., An integrated approach for the detailed characterization of an immobilized enzyme, J. Mol. Catal. B Enzym, vol.125, pp.64-74, 2016.

L. Cang, D. M. Zhou, Q. Y. Wang, and D. Y. Wu, Effects of electrokinetic treatment of a heavy metal contaminated soil on soil enzyme activities, J. Hazard. Mater, vol.172, pp.1602-1607, 2009.

G. Sheila, J. S. Alves, M. P. Klein, R. C. Rodrigues, and P. F. Hertz, High operational stability of invertase from Saccharomyces cerevisiae immobilized on chitosan nanoparticles, vol.92, pp.462-468, 2013.

D. J. Bell, D. J. Manners, and A. Palmer, Observations on the reduction of alkaline 3:5-dinitrosalicylate by certain carbohydrates, J. Chem. Soc, pp.3760-3763, 1952.

X. Shen and H. Perreault, Characterization of carbohydrates using a combination of derivatization, high-performance liquid chromatography and mass spectrometry, J. Chrom. A, vol.811, pp.47-59, 1998.

H. Yu, Y. S. Ding, S. F. Mou, P. Jandik, and J. Cheng, Simultaneous determination of amino acids and carbohydrates by anion-exchange chromatography with integrated pulsed amperometric detection, J. Chrom. A, vol.966, pp.89-97, 2002.

E. F. Hilder, F. Svec, and J. M. Fréchet, Latex-functionalized monolithic columns for the separation of carbohydrates by anion-exchange chromatography, J. Chrom. A, vol.1053, pp.101-106, 2004.

S. Rodriguez-sanchez, M. J. Garcia-sarrio, J. E. Quintanilla-lopez, A. C. Soria, and M. L. Sanz, Analysis of iminosugars and other low molecular weight carbohydrates in Aglaonema sp. Extracts by hydrophilic interaction liquid chromatography coupled to mass spectrometry, J. Chrom. A, vol.1423, pp.104-110, 2015.

X. Liu and N. Ai, Quantification of glucose, xylose, arabinose, furfural, and HMF in corncob hydrolysate by HPLC-PDA-ELSD, Carbohydr. Res, vol.353, pp.111-114, 2012.

J. L. Chavez-sevin, Analysis of mono-and disaccharides in milk-based formulae by high-performance liquid chromatography with refractive index detection, J. Chrom. A, vol.1043, pp.211-215, 2004.

G. L. Sassaki, L. M. Souza, R. V. Serrato, T. R. Cipriani, P. A. Gorin et al., Application of acetate derivatives for gas chromatography-mass spectometry: novel approaches on carbohydrates, lipids and amino acids analysis, J. Chrom. A, vol.1208, pp.215-222, 2008.

E. Rojas-escudero, A. L. Alarcon-jimenez, P. Elizalde-galvan, and F. , Rojo-Callejas, Optimization of carbohydrate silylation for gas chromatography, J. Chrom. A, vol.1027, pp.117-120, 2004.

A. Kazalaki, M. Misiak, A. Spyros, and P. Dais, Identification and quantitative determination of carbohydrate molecules in Greek honey by employing 13 C NMR spectroscopy, Anal. Chem, vol.7, pp.5962-5972, 2015.

G. Del-campo, J. Zuriarrain, A. Zuriarrain, and I. Berrigi, Quantitative determination of carboxylic acids amino acids, carbohydrates, ethanol and hydroxymethylfurfural in honey by 1 H NMR, Food Chem, vol.196, pp.1031-1039, 2016.

M. A. Coimbre, A. Barros, D. N. Rutledge, and I. Delgadillo, FTIR spectroscopy as a tool for the analysis of olive pulp cell-wall polysaccharide extracts, Carbohydr. Res, vol.317, pp.145-154, 1999.

O. Anjos, M. G. Campos, P. C. Ruiz, and P. Antunes, Application of FTIR-ATR spectroscopy to the quantification of sugar in honey, Food Chem, vol.169, pp.218-223, 2015.

S. Farag, Separation and analysis of some sugars by using thin-Layer chromatography, pp.251-254, 1978.

K. M. Haldorsen, Quantitative Thin-Layer Chromatography of carbohydrates using pentavalent vanadium in sulphuric acid. Determination of mixtures of D-fructose, D-glucose and sucrose, J. Chromatogr, vol.150, pp.485-490, 1978.

N. Iizima, M. Fujihara, and T. Nagumo, Application of a sintered silica gel plate to the Thin-Layer Chromatography of carbohydrates, J. Chromatogr, vol.193, pp.464-469, 1980.

G. Morlock and G. Sabir, Comparison of two orthogonal liquid chromatographic methods for quantitation of sugars in food, J. Liq. Chromatogr. Relat. Technol, vol.34, pp.902-919, 2011.

M. Ghebregzabher, S. Rufini, B. Monaldi, and M. Lato, Thin-Layer chromatography of carbohydrates, J. Chromatogr, vol.127, pp.133-162, 1976.

R. D. Fell, The qualitative and quantitative analysis of insect hemolymph sugars by high performance Thin-Layer Chromatography, Comp. Biochem. Physiol, vol.95, issue.4, pp.539-544, 1990.

A. Pyka, E. Wiatr, K. Kwiska, and D. Gurak, Validation Thin Layer Chromatography for the determination of naproxen in tablets and comparison with a pharmacopoeial method, J. Liq. Chromatogr. Related Technol, vol.34, pp.829-847, 2011.

L. H. Guimarães and A. F. Somera, Production of-fructofuranosidases by Aspergillus niveus using agroindustrial residues as carbon sources: characterization of an intracellular enzyme accumulated in the presence of glucose, Process Biochem, vol.44, issue.2, pp.237-241, 2009.

C. Li, Effects of chemical modification by chitooligosaccharide on enzyme activity and stability of yeast beta-D-fructofuranosidase, Enzyme Microb. Technol, pp.24-32, 2014.

R. Schindler, H. L. Thanh, B. Lendl, and R. Kellner, Determination of enzyme kinetics and chemometric evaluation of reaction products by FTIR spectroscopy on the example of-fructofuranosidase, Vib. Spectrosc, vol.16, pp.127-135, 1998.

Q. Xu and X. Zheng, Purification and biochemical characterization of a novel of-fructofuranosidase-fructofuranosidase from Penicillium oxalicum with transfructosylating activity producing neokestose, Process Biochem, vol.50, issue.8, pp.1237-1246, 2015.

J. D. Kehlbeck, C. C. Slack, M. T. Turnbull, and S. J. Kohler, Exploring the hydrolysis of sucrose by invertase using nuclear magnetic resonance spectroscopy: a flexible package of kinetic experiments, J. Chem. Educ, vol.91, pp.734-738, 2014.

F. Exnowitz, B. Meyer, and T. Hackl, NMR for direct determination of KM and Vmax of enzyme reactions based on the Lambert W function-analysis of progress curves, Biochim. Biophys. Acta, vol.1824, pp.443-449, 2012.

R. Schindler, H. L. Thanh, B. Lendl, and R. Kellner, Determination of enzyme kinetics and chemimetric evaluation of reaction products by FTIR spectroscopy on the example of-fructofuranosidase, Vib. Spectrosc, vol.16, pp.127-135, 1998.

F. Cadet, F. W. Pin, C. Rouch, C. Robert, and P. Baret, Enzyme kinetics by mid-infrared spectroscopy;-fructosidase study by a one-step assay, fruit of perilla frutescens var. acuta, vol.1246, pp.131-136, 1995.

E. Calleri, C. Temporini, and G. Massolini, Frontal affinity chromatography in characterizing immobilized receptors, J. Pharm. Biomed. Anal, vol.54, pp.911-925, 2011.

H. B. Li, Y. Jiang, and F. Chen, Separation methods used for Scutellaria baicalensis active components, J. Chromatogr. B, vol.812, pp.277-290, 2004.

D. M. Liu, Y. P. Shi, and J. Chen, Application of capillary electrophoresis in enzyme inhibitors screening, Chin. J. Anal. Chem, vol.43, pp.775-782, 2015.

H. B. Hines, E. E. Brueggemann, and M. L. Hale, High-performance liquid chromatography-mass selective detection assay for adenine released from a synthetic RNA substrate by ricin A chain, Anal. Biochem, vol.330, pp.119-122, 2004.

E. Destandau, A. Toribio, M. Lafosse, V. Pecher, C. Lamy et al., Centrifugal partition chromatography directly interfaced with mass spectrometry for the fast screening and fractionation of major xanthones in Garcina mangostana, J. Chromatogr. A, vol.1216, pp.1390-1394, 2009.

S. Farag, Separation and analysis of some sugars by using thin layer chromatography, pp.251-254, 1978.

R. D. Fell, The qualitative and quantitative analysis of insect hemolymph sugars by high performance thin-layer chromatography, Comp. Biochem. Physiol, vol.95, pp.539-544, 1990.

L. W. Doner and L. M. Biller, High-performance thin layer chromatographic separation of sugars: preparation and application of aminopropyl bonded silica plates impregnated with monosodium phosphate, J. Chromatogr, vol.287, pp.391-398, 1984.

P. Agrawal and K. Laddha, Development of validated high-performance thin layer chromatography for quantification of aristolochic acid in different species of the Aristolochiaceae family, J. Food Drug Anal, pp.1-5, 2016.

T. Kriska and A. W. Girotti, A thin layer chromatographic method for determining the enzymatic activity of peroxidases catalyzing the two-electron reduction of lipid hydroperoxides, J. Chromatogr. B, vol.827, pp.58-64, 2005.

A. Aygan, B. Arikan, H. Korkmaz, S. Dincer, and O. Colak, Highly thermostable and alkaline alpha-amylase from a halotolerant-alkaliphilic Bacillus sp. AB68, Braz. J. Microbiol, vol.39, pp.547-553, 2008.

L. H. Gu, L. P. Liao, H. J. Hu, S. W. Bligh, C. H. Wang et al., A thin-layer chromatography-bioautographic method for detecting dipeptidyl peptidase IV inhibitors in plants, J. Chromatogr. A, vol.1411, pp.116-122, 2015.

I. M. Choma and E. M. Grzelak, Bioautography detection in thin-layer chromatography, J. Chromatogr. A, vol.1218, pp.2684-2691, 2011.

W. Jesionek, Á. M. Móricz, P. G. Ott, B. Kocsis, G. Horváth et al., TLC-direct bioautography and LC/MS as complementary methods in identification of antibacterial agents in plant tinctures from the asteraceae family, J. AOAC Int, vol.98, pp.857-861, 2015.

B. Hu, G. Z. Xin, P. K. So, and Z. P. Yao, Thin layer chromatography coupled with electrospray ionization mass spectrometry for direct analysis of raw samples, J. Chromatogr. A, vol.1415, pp.155-160, 2015.

S. C. Cheng, M. Z. Huang, and J. Shiea, Thin layer chromatography/mass spectrometry, J. Chromatogr. A, vol.1218, pp.2700-2711, 2011.

S. P. Pasilis and G. J. Van-berkel, Atmospheric pressure surface sampling/ionization techniques for direct coupling of planar separations with mass spectrometry, J. Chromatogr. A, vol.1217, pp.3955-3965, 2010.

V. Ilbeigi, M. Sabo, Y. Valadbeigi, S. Matejcik, and M. Tabrizchi, Laser desorption-ion mobility spectrometry as a useful tool for imaging of thin layer chromatography surface, J. Chromatogr. A, vol.1459, pp.145-151, 2016.

S. Mowthorpe, M. R. Clench, A. Cricelius, D. S. Richards, V. Parr et al., Matrix-assisted laser desorption/ionisation time-of-flight/thin layer chromatography/mass spectrometry-A rapid method for impurity testing, Rapid Commun. Mass Spectrom, vol.13, pp.264-270, 1999.

E. D. Leriche, M. Hubert-roux, M. C. Grossel, C. M. Lange, C. Afonso et al., Direct TLC/MALDI-MS coupling for modified polyamidoamine dendrimers analyses, Anal. Chim. Acta, vol.808, pp.144-150, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01107942

M. Manikandan, N. Hasan, and H. F. Wu, Rapid detection of haloarchaeal carotenoids via liquid-liquid microextraction enabled direct TLC MALDI-MS, Talanta, vol.107, pp.167-175, 2013.

G. Morlock and W. Schwack, Hyphenations in planar chromatography, J. Chromatogr. A, vol.1217, pp.6600-6609, 2010.

T. T. Häbe and G. E. Morlock, Miniaturization of instrumental planar chromatography with focus on mass spectrometry, Chromatographia, vol.79, pp.797-810, 2016.

Y. Lv, Z. Lin, T. Tan, and F. Svec, Preparation of porous styrenics-based monolithic layers for thin layer chromatography coupled with matrix-assisted laser-desorption/ionization time-of-flight mass spectrometric detection, J. Chromatogr. A, vol.1316, pp.154-159, 2013.

Z. Zhang, S. N. Ratnayaka, and M. J. Wirth, Protein UTLC-MALDI-MS using thin films of submicrometer silica particles, J. Chromatogr. A, vol.1218, pp.7196-7202, 2011.

I. Vovk, G. Popovic, B. Simonovska, A. Albreht, and D. Agbaba, Ultra-thin-layer chromatography mass spectrometry and thin-layer chromatography mass spectrometry of single peptides of angiotensin-converting enzyme inhibitors, J. Chromatogr. A, vol.1218, pp.3089-3094, 2011.

K. Matheis, B. Fuchs, K. Lemmnitzer, R. Suß, H. Griesinger et al., Combining TLC separation with MS detection-A revival of TLC, J. Glycom. Lipidom, pp.1000-125, 2015.

A. A. Parent, T. M. Anderson, D. J. Michaelis, G. Jiang, P. B. Savage et al., Direct ToF-SIMS analysis of organic halides and amines on TLC plates, Appl. Surf. Sci, vol.252, pp.6746-6749, 2006.

B. A. Gary, J. Van-berkel, and V. Kertesz, Thin-layer chromatography/Desoprtion electrospray ionization mass spectrometry: investigation of Goldenseal alkaloids, Anal. Chem, vol.79, pp.2778-2789, 2007.

T. T. Habe and G. E. Morlock, Office Chromatography: precise printing of sample solutions on miniaturized thin-layer phases and utilization for scanning Direct Analysis in Real Time mass spectrometry, J. Chromatogr. A, vol.1413, pp.127-134, 2015.

A. Batubara, V. A. Carolan, P. M. Loadman, C. Sutton, S. D. Shnyder et al., Thin-layer chromatography/matrix-assisted laser desorption/ionisation mass spectrometry and matrix-assisted laser desorption/ionisation mass spectrometry imaging for the analysis of phospholipids in LS174T colorectal adenocarcinoma xenografts treated with the vascular disrupting agent DMXAA, Rapid Commun. Mass Spectrom, vol.29, pp.1288-1296, 2015.

B. Fuchs, R. Süß, A. Nimptsch, and J. Schiller, MALDI-TOF-MS directly combined with TLC: a review of the current state, Chromatographia, vol.69, pp.95-105, 2008.

A. I. Gusev, A. Proctor, Y. I. Rabinovich, and D. M. Hercules, Thin-layer chromatography combined with matrix-assisted laser desorption/Ionization mass spectrometry, Anal. Chem, vol.67, pp.1805-1814, 1995.

D. T. Isbell, A. I. Gusev, N. I. Taranenko, C. H. Chen, and D. M. Hercules, Analysis of nucleotides directly from TLC plates using MALDI-MS detection, Fresenius J. Anal. Chem, vol.365, pp.625-630, 1999.

K. Dreisewerd, S. Kolbl, J. Peter-katalinic, S. Berkenkamp, and G. Pohlentz, Analysis of native milk oligosaccharides directly from thin-layer chromatography plates by matrix-assisted laser desorption/ionization orthogonal-time-of-flight mass spectrometry with a glycerol matrix, J. Am. Soc. Mass. Spectrom, vol.17, pp.139-150, 2006.

E. D. Leriche, M. Hubert-roux, M. C. Grossel, C. M. Lange, C. Afonso et al., Direct TLC/MALDI-MS coupling for modified polyamidoamine dendrimers analyses, Anal. Chim. Acta, vol.808, pp.144-150, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01107942

K. Nimptsch, R. Suss, T. Riemer, A. Nimptsch, M. Schnabelrauch et al., Differently complex oligosaccharides can be easily identified by matrix-assisted laser desorption and ionization time-of-flight mass spectrometry directly from a standard thin-layer chromatography plate, J. Chromatogr. A, vol.1217, pp.3711-3715, 2010.

S. Belaz, T. Rattier, P. Lafite, P. Moreau, F. H. Routier et al., Identification, biochemical characterization, and invivo expression of the intracellular invertase BfrA from the pathogenic parasite Leishmania major, Carbohydr. Res, vol.415, pp.31-38, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01187142

A. Salwinski, D. D. Silva, R. Delépée, and B. Maunit, Enzyme-Coupled nanoparticlesassisted laser desorption ionization mass spectrometry for searching for low-mass inhibitors of enzymes in complex mixtures, J. Am. Soc. Mass. Spectrom, vol.25, pp.538-547, 2014.

T. Michel, E. Destandau, L. Fougere, and C. Elfakir, New "hyphenated" CPC-HPLCDAD-MS strategy for simultaneous isolation, analysis and identification of phytochemicals: application to xanthones from Garcinia mangostana, Anal. Bioanal. Chem, vol.404, pp.2963-2972, 2012.

M. Ghebregzabher, S. Ruffini, B. Monaldi, and M. Lato, Thin-layer chromatography of carbohydrates, J. Chromatogr, vol.127, pp.133-162, 1976.

J. Ferey, D. D. Silva, S. Bravo-veyrat, P. Lafite, R. Daniellou et al., Validation of a thin-layer chromatography/densitometry method for the characterization of invertase activity, J. Chromatogr. A, vol.1477, pp.108-113, 2016.

J. Ferey, Talanta, vol.170, pp.419-424, 2017.