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References
Almeida VM, Marana SR (2019). Optimum temperature may be a misleading parameter in enzyme characterization and application. PLoS ONE 14(2):e0212977. |
|
Anand A, Srivastava PK (2012). A molecular description of acid phosphatase. Applied Biochemistry and Biotechnology 167(8):2174-2197. |
|
Anand A, Srivastava PK (2014). Isolation and enzymatic properties of a nonspecific acid phosphatase from Vigna aconitifolia seeds. Biotechnology and Applied Biochemistry 61(2):145-152. |
|
Asaduzzaman AK, Rahman HM, Yeasmin T (2011). Purification and characterization of acid phosphatase from a germinating black gram (Vigna mungo L.) seedling. Archives of Biological Sciences 63(3):747-756. |
|
Baldwin JC, Karthikeyan AS, Raghothama KG (2001). LEPS2, a phosphorus starvation-induced novel acid phosphatase from tomato. Plant Physiology 125(2):728-737. |
|
Bargaz A, Ghoulam C, Devron JJ (2013). Specific expression and activity of acid phosphatases in common bean nodules. Plant Signaling and Behavior 8(8):e25022. |
|
Bheri M, Mahiwal S, Sanyal SK, Pandey GK (2021). Plant protein phosphatases: What do we know about their mechanism of action? The FEBS Journal 288(3):756-785. |
|
Brautigan DL (2013). Protein Ser/Thr phosphatases - the ugly ducklings of cell signalling. The FEBS Journal 280(2):324-345. |
|
Collet JF, Stroobant V, Pirard M, Delpierre G, van Schaftingen E (1998). A new class of phosphotransferases phosphorylated on an aspartate residue in an amino-terminal DXDX(T/V) motif. Journal of Biological Chemistry 273(23):14107-14112. |
|
Copeland RA (2000). Enzymes, A practical introduction to structure, mechanism, and data analysis. 2nd edition, Wiley-VCH, New York, NY, pp. 40, 132, 134-135. |
|
Davis L, Kuehl M, Battey J (1994). Basic methods in molecular biology. 2nd edition, Appleton & Lange, East Norwalk, CT, pp. 159-161, and 750. |
|
Duff SMG, Sarath G, Plaxton WC (1994). The role of acid phosphatases in plant phosphorus metabolism. Physiologia Plantarum 90(4):781-800. |
|
Gonnety JT, Niamke S, Faulet BM, Kouadio EJPN, Kouame LP (2006). Purification and characterization of three low-molecular-weight acid phosphatases from peanut (Arachis hypogaea) seedlings. African Journal of Biotechnology 5(1):035-044. |
|
Hegeman OCE, Grabau EA (2001). A novel phytase with sequence similarity to purple acid phosphatases is expressed in cotyledons of germinating soybean seedlings. Plant Physiology 126(4):1598-1608. |
|
Joyce BK, Grisolia S (1960). Purification and properties of a nonspecific acid phosphatase from wheat germ. Journal of Biological Chemistry 235(8):2278-2281. PMID: 14408027. |
|
Kang JY, Kim SK, Kim M, MY, Lestari P, Kim KH, Ha BK, Jun TH, Hwang WJ, Lee T, Lee J, Shim S (2014). Genome sequence of mung bean and insights into evolution within the Vigna species. Nature Communications 5(5443). |
|
Laemmli UK (1970). Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 227(5259):680-685. |
|
Li D, Zhu H, Liu K, Liu X, Leggewie G, Udvardi M, Wang D (2002). Purple acid phosphatases of Arabidopsis thaliana. Comparative analysis and differential regulation by phosphate deprivation. Journal of Biological Chemistry 277(31):27772-27781. |
|
Liu Y, Ahn JE, Datta S, Salzman RA, Moon J, Huyghues-Despointes B, Pittendrigh B, Murdock LL, Koiwa H, Zhu-Salzman K (2005). Arabidopsis vegetative storage protein is an anti-insect acid phosphatase. Plant Physiology 139(3):1545-1556. |
|
Menichetti L, Reyes Ortigoza A, García N, Giagnoni L, Nannipieri P, Renella G (2015). Thermal sensitivity of enzyme activity in tropical soils assessed by the Q10 and equilibrium model. Biology and Fertility of Soils 51:299-310. |
|
Mission J, Raghothama KG, Jain A, Jouhet J, Block MA, Bligny R, Ortet P, Creff A, Somerville S, Rolland N, Doumas P, Nacry P, Herrerra-Estrella L, Nussaume L, Thibaud MC (2005). A genome-wide transcriptional analysis using Arabidopsis thaliana Affymetrix gene chips determined plant responses to phosphate deprivation. Proceedings of the National Academy of Sciences 102(33):11934-11939. |
|
Moorman V, Brayton A (2021). Identification of individual components of a commercial wheat germ acid phosphatase preparation. PLoS ONE 16(3):e0248717. |
|
Nadir S, Saeed A, Naz R, Siddiqua A, Sherazi M, Wazir SM, Saeed A (2012). Isolation, purification and characterization of acid phosphatase from germinating Vigna radiata seeds. Journal of the Chemical Society of Pakistan 34(3):717-727. |
|
Olczak M, Watorek W, Morawiecka B (1997). Purification and isolation of acid phosphatase from yellow lupin seeds. Biochimica et Biophysica Acta 1341(1):14-25. |
|
Saeed A, Salim M, Naz R, Zaman U, Baloch AL, Nadir S, Saeed A (2014) Partial purification, characterization and some kinetic properties of low molecular weight acid phosphatase from leaves of germinating Vigna radiata seeds. The Journal of Animal and Plant Sciences 24(5):1466-1477. |
|
Schenk G, Guddat LW, Ge Y, Carrington LE, Hume DA, Hamilton S, de Jersey J (2000). Identification of mammalian-like purple acid phosphatases in a wide range of plants. Gene 250(1-2):117-125. |
|
Schweighofer A, Meskiene I (2015). Phosphatases in plants. Methods in Molecular Biology 1306:25-46. |
|
Staswick PE (1994). Storage proteins of vegetative plant tissues. Annual Review of Plant Physiology and Plant Molecular Biology 45(1):303-322. |
|
Surchandra T, Roy SS, Singh NR, Sahoo MR, Prakash N (2012). Partial purification and biochemical characterization of acid phosphatase from germinated mung bean (Vigna radiata) seeds. African Journal of Biotechnology 11(103):16777-16782. |
|
Swarbreck D, Lamesch P, Wilks C, Huala E (2011). Direct submission to Arabidopsis TAIR10 release. The Arabidopsis Information Resource, Department of Plant Biology, Carnegie Institution, Stanford, CA, 2011. |
|
Tagad CK, Sabharwal SG (2018). Purification and characterization of acid phosphatase from Macrotyloma uiflorum seeds. Journal of Food Science Technology 55(1):313-320. |
|
Tejera Garcia NA, Olivera M, Iribarne C, and Lluch C. (2004) Partial purification and characterization of a non-specific acid phosphatase in leaves and root nodules of Phaseolus vulgaris. Plant Physiology and Biochemistry 42(7-8):585-591. |
|
Thaller MC, Schippa S, Rossolini GM (1998). Conserved sequence motifs among bacterial, eukaryotic, and archaeal phosphatases that define a new phosphohydrolase superfamily. Protein Science 7(7):1647. |
|
The Arabidopsis Genome Initiative (2000). Analysis of the genome sequence of the flowering plant Arabidopsis thaliana. Nature 408:796-815. |
|
Tran HT, Hurley BA, Plaxton WC (2010). Feeding hungry plants: The role of purple acid phosphatases in phosphate nutrition. Plant Science 179(1-2):14-27. |
|
Uhrig GR, Labandera AM, Moorhead GB (2013). Arabidopsis PPP family of serine/threonine protein phosphatases: many targets but few engines. Trends in Plant Science 18(9):505-513. |
|
Verjee ZHM (1969). Isolation of three acid phosphatases from wheat germ. European Journal of Biochemistry 9(3):439-444. |
|
Waymack PP, Van Etten RL (1991). Isolation and characterization of a homogeneous isoenzyme of wheat germ acid phosphatase. Archives of Biochemistry and Biophysics 288(2):621-633. |
|
Wu P, Ma L, Hou X, Wang M, Wu Y, Liu F, Deng XW (2003). Phosphate starvation triggers distinct alterations of genome expression in Arabidopsis roots and leaves. Plant Physiology 132(3):1260-1271. |
|
Wyss M, Pasamontes L, Rémy R, Kohler J, Kusznir E, Gadient M, Müller F, van Loon AP (1998). Comparison of the thermostability properties of three acid phosphatases from molds: Aspergillus fumigatus phytase, A. niger phytase, and A. niger pH 2.5 acid phosphatase. Applied Environmental Microbiology 64(11):4446-4451. |
|
Xie L, Shang Q (2018). Genome-wide analysis of purple acid phosphatase structure and expression in ten vegetable species. BMC Genomics 19:646. |
|
Yenigün B, Güvenilir Y (2003). Partial purification and kinetic characterization of acid phosphatase from garlic seedling. Applied Biochemistry and Biotechnology 105-108:677-87. |
|
Zaman U, Naz R, Khattak NS, ur Rehman K, Iqbal A, Ahmad S, Shah LA (2020). Investigating the thermodynamic and kinetics properties of acid phosphatase extracted and purified from seedlings of Chenopodium murale. International Journal of Biological Macromolecules 165:1475-1481. |
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