Identification of the NADP+ structural binding site and coenzyme effect on the fused G6PD::6PGL protein from giardia lamblia

Laura Morales-Luna; Abigail González-Valdez; Yudibeth Sixto-López; José Correa-Basurto; Beatriz Hernández-Ochoa; Noemí Cárdenas-Rodríguez; Rosa Angélica Castillo-Rodríguez; Daniel Ortega-Cuellar; Roberto Arreguin-Espinosa; Verónica Pérez de la Cruz; Hugo Serrano-Posada; Sara Centeno-Leija; Luz María Rocha-Ramírez; Edgar Sierra-Palacios; Alba Mónica Montiel-González; Yadira Rufino-González; Jaime Marcial-Quino; Saúl Gómez-Manzo

doi:10.3390/biom10010046

Identification of the NADP⁺ structural binding site and coenzyme effect on the fused G6PD::6PGL protein from giardia lamblia

Laura Morales-Luna, Abigail González-Valdez, Yudibeth Sixto-López, José Correa-Basurto, Beatriz Hernández-Ochoa, Noemí Cárdenas-Rodríguez, Rosa Angélica Castillo-Rodríguez, Daniel Ortega-Cuellar, Roberto Arreguin-Espinosa, Verónica Pérez de la Cruz, Hugo Serrano-Posada, Sara Centeno-Leija, Luz María Rocha-Ramírez, Edgar Sierra-Palacios, Alba Mónica Montiel-González, Yadira Rufino-González, Jaime Marcial-Quino, Saúl Gómez-Manzo

Escuela Superior de Medicina (ESM)

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

7 Citas (Scopus)

Resumen

Giardia lambia is a flagellated protozoan parasite that lives in the small intestine and is the causal agent of giardiasis. It has been reported that G. lamblia exhibits glucose-6-phosphate dehydrogenase (G6PD), the first enzyme in the pentose phosphate pathway (PPP). Our group work demonstrated that the g6pd and 6pgl genes are present in the open frame that gives rise to the fused G6PD::6PGL protein; where the G6PD region is similar to the 3D structure of G6PD in Homo sapiens. The objective of the present work was to show the presence of the structural NADP⁺ binding site on the fused G6PD::6PGL protein and evaluate the effect of the NADP⁺ molecule on protein stability using biochemical and computational analysis. A protective effect was observed on the thermal inactivation, thermal stability, and trypsin digestions assays when the protein was incubated with NADP⁺. By molecular docking, we determined the possible structural-NADP⁺ binding site, which is located between the Rossmann fold of G6PD and 6PGL. Finally, molecular dynamic (MD) simulation was used to test the stability of this complex; it was determined that the presence of both NADP⁺ structural and cofactor increased the stability of the enzyme, which is in agreement with our experimental results.

Idioma original	Inglés
Número de artículo	46
Publicación	Biomolecules
Volumen	10
N.º	1
DOI	https://doi.org/10.3390/biom10010046
Estado	Publicada - ene. 2020

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Morales-Luna, L., González-Valdez, A., Sixto-López, Y., Correa-Basurto, J., Hernández-Ochoa, B., Cárdenas-Rodríguez, N., Castillo-Rodríguez, R. A., Ortega-Cuellar, D., Arreguin-Espinosa, R., de la Cruz, V. P., Serrano-Posada, H., Centeno-Leija, S., Rocha-Ramírez, L. M., Sierra-Palacios, E., Montiel-González, A. M., Rufino-González, Y., Marcial-Quino, J., & Gómez-Manzo, S. (2020). Identification of the NADP⁺ structural binding site and coenzyme effect on the fused G6PD::6PGL protein from giardia lamblia. Biomolecules, 10(1), Artículo 46. https://doi.org/10.3390/biom10010046

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title = "Identification of the NADP+ structural binding site and coenzyme effect on the fused G6PD::6PGL protein from giardia lamblia",

abstract = "Giardia lambia is a flagellated protozoan parasite that lives in the small intestine and is the causal agent of giardiasis. It has been reported that G. lamblia exhibits glucose-6-phosphate dehydrogenase (G6PD), the first enzyme in the pentose phosphate pathway (PPP). Our group work demonstrated that the g6pd and 6pgl genes are present in the open frame that gives rise to the fused G6PD::6PGL protein; where the G6PD region is similar to the 3D structure of G6PD in Homo sapiens. The objective of the present work was to show the presence of the structural NADP+ binding site on the fused G6PD::6PGL protein and evaluate the effect of the NADP+ molecule on protein stability using biochemical and computational analysis. A protective effect was observed on the thermal inactivation, thermal stability, and trypsin digestions assays when the protein was incubated with NADP+. By molecular docking, we determined the possible structural-NADP+ binding site, which is located between the Rossmann fold of G6PD and 6PGL. Finally, molecular dynamic (MD) simulation was used to test the stability of this complex; it was determined that the presence of both NADP+ structural and cofactor increased the stability of the enzyme, which is in agreement with our experimental results.",

keywords = "Docking, G6PD, Giardia lamblia, NADP structural binding site, Stability",

author = "Laura Morales-Luna and Abigail Gonz{\'a}lez-Valdez and Yudibeth Sixto-L{\'o}pez and Jos{\'e} Correa-Basurto and Beatriz Hern{\'a}ndez-Ochoa and Noem{\'i} C{\'a}rdenas-Rodr{\'i}guez and Castillo-Rodr{\'i}guez, {Rosa Ang{\'e}lica} and Daniel Ortega-Cuellar and Roberto Arreguin-Espinosa and {de la Cruz}, {Ver{\'o}nica P{\'e}rez} and Hugo Serrano-Posada and Sara Centeno-Leija and Rocha-Ram{\'i}rez, {Luz Mar{\'i}a} and Edgar Sierra-Palacios and Montiel-Gonz{\'a}lez, {Alba M{\'o}nica} and Yadira Rufino-Gonz{\'a}lez and Jaime Marcial-Quino and Sa{\'u}l G{\'o}mez-Manzo",

note = "Publisher Copyright: {\textcopyright} 2019 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2020",

month = jan,

doi = "10.3390/biom10010046",

language = "Ingl{\'e}s",

volume = "10",

journal = "Biomolecules",

issn = "2218-273X",

publisher = "Multidisciplinary Digital Publishing Institute",

number = "1",

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Morales-Luna, L, González-Valdez, A, Sixto-López, Y, Correa-Basurto, J, Hernández-Ochoa, B, Cárdenas-Rodríguez, N, Castillo-Rodríguez, RA, Ortega-Cuellar, D, Arreguin-Espinosa, R, de la Cruz, VP, Serrano-Posada, H, Centeno-Leija, S, Rocha-Ramírez, LM, Sierra-Palacios, E, Montiel-González, AM, Rufino-González, Y, Marcial-Quino, J & Gómez-Manzo, S 2020, 'Identification of the NADP⁺ structural binding site and coenzyme effect on the fused G6PD::6PGL protein from giardia lamblia', Biomolecules, vol. 10, n.º 1, 46. https://doi.org/10.3390/biom10010046

TY - JOUR

T1 - Identification of the NADP+ structural binding site and coenzyme effect on the fused G6PD::6PGL protein from giardia lamblia

AU - Morales-Luna, Laura

AU - González-Valdez, Abigail

AU - Sixto-López, Yudibeth

AU - Correa-Basurto, José

AU - Hernández-Ochoa, Beatriz

AU - Cárdenas-Rodríguez, Noemí

AU - Castillo-Rodríguez, Rosa Angélica

AU - Ortega-Cuellar, Daniel

AU - Arreguin-Espinosa, Roberto

AU - de la Cruz, Verónica Pérez

AU - Serrano-Posada, Hugo

AU - Centeno-Leija, Sara

AU - Rocha-Ramírez, Luz María

AU - Sierra-Palacios, Edgar

AU - Montiel-González, Alba Mónica

AU - Rufino-González, Yadira

AU - Marcial-Quino, Jaime

AU - Gómez-Manzo, Saúl

PY - 2020/1

Y1 - 2020/1

N2 - Giardia lambia is a flagellated protozoan parasite that lives in the small intestine and is the causal agent of giardiasis. It has been reported that G. lamblia exhibits glucose-6-phosphate dehydrogenase (G6PD), the first enzyme in the pentose phosphate pathway (PPP). Our group work demonstrated that the g6pd and 6pgl genes are present in the open frame that gives rise to the fused G6PD::6PGL protein; where the G6PD region is similar to the 3D structure of G6PD in Homo sapiens. The objective of the present work was to show the presence of the structural NADP+ binding site on the fused G6PD::6PGL protein and evaluate the effect of the NADP+ molecule on protein stability using biochemical and computational analysis. A protective effect was observed on the thermal inactivation, thermal stability, and trypsin digestions assays when the protein was incubated with NADP+. By molecular docking, we determined the possible structural-NADP+ binding site, which is located between the Rossmann fold of G6PD and 6PGL. Finally, molecular dynamic (MD) simulation was used to test the stability of this complex; it was determined that the presence of both NADP+ structural and cofactor increased the stability of the enzyme, which is in agreement with our experimental results.

AB - Giardia lambia is a flagellated protozoan parasite that lives in the small intestine and is the causal agent of giardiasis. It has been reported that G. lamblia exhibits glucose-6-phosphate dehydrogenase (G6PD), the first enzyme in the pentose phosphate pathway (PPP). Our group work demonstrated that the g6pd and 6pgl genes are present in the open frame that gives rise to the fused G6PD::6PGL protein; where the G6PD region is similar to the 3D structure of G6PD in Homo sapiens. The objective of the present work was to show the presence of the structural NADP+ binding site on the fused G6PD::6PGL protein and evaluate the effect of the NADP+ molecule on protein stability using biochemical and computational analysis. A protective effect was observed on the thermal inactivation, thermal stability, and trypsin digestions assays when the protein was incubated with NADP+. By molecular docking, we determined the possible structural-NADP+ binding site, which is located between the Rossmann fold of G6PD and 6PGL. Finally, molecular dynamic (MD) simulation was used to test the stability of this complex; it was determined that the presence of both NADP+ structural and cofactor increased the stability of the enzyme, which is in agreement with our experimental results.

KW - Docking

KW - G6PD

KW - Giardia lamblia

KW - NADP structural binding site

KW - Stability

UR - http://www.scopus.com/inward/record.url?scp=85077327369&partnerID=8YFLogxK

U2 - 10.3390/biom10010046

DO - 10.3390/biom10010046

M3 - Artículo

C2 - 31892224

SN - 2218-273X

VL - 10

JO - Biomolecules

JF - Biomolecules

IS - 1

M1 - 46

ER -