Study of the Ternary Complex Formation Between Vanadium(III)-Picolinic Acid and the Amino Acids: Cysteine, Histidine, Aspartic and Glutamic Acids

2010 ◽  
Vol 39 (7) ◽  
pp. 1021-1029 ◽  
Author(s):  
Héctor Rosas ◽  
Leydi Erika Sarmiento ◽  
Mildred Rodríguez ◽  
Vito Lubes
Keyword(s):  
Amino Acids ◽  
Complex Formation ◽  
Ternary Complex ◽  
Picolinic Acid ◽  
Ternary Complex Formation

Ternary complex formation in the system Ni(II) with picolinic acid and selected amino acids: Solution studies, isolation and computational calculations

2018 ◽  
Vol 471 ◽  
pp. 297-304
Author(s):  
Vanessa R. Landaeta ◽  
Yessica Barrera ◽  
Edgar del Carpio ◽  
Anggie Nóbrega ◽  
Rafael E. Rodríguez-Lugo ◽  
...  
Keyword(s):  
Amino Acids ◽  
Complex Formation ◽  
Ternary Complex ◽  
Picolinic Acid ◽  
Ternary Complex Formation ◽  
Solution Studies ◽  
Computational Calculations

Ternary complex formation of the copper (II)-2,2′-Bipyridine system with some amino acids

2020 ◽  
Vol 302 ◽  
pp. 112595
Author(s):  
Daniel Raydan ◽  
Idelys J. Rivas-Lacre ◽  
Vito Lubes ◽  
Vanessa Landaeta ◽  
Lino Hernández
Keyword(s):  
Amino Acids ◽  
Complex Formation ◽  
Ternary Complex ◽  
Ternary Complex Formation

Ternary complex formation between vanadium(III) cytosine and some amino acids

2014 ◽  
Vol 193 ◽  
pp. 239-242 ◽  
Author(s):  
Gabriel Enrique Gómez ◽  
Lino Hernández ◽  
Edgar Del Carpio ◽  
Vito Lubes
Keyword(s):  
Amino Acids ◽  
Complex Formation ◽  
Ternary Complex ◽  
Ternary Complex Formation

Ternary complex formation between VO(IV)–picolinic acid or VO(IV)–6-methylpicolinic acid and small blood serum bioligands

2000 ◽  
Vol 78 (2) ◽  
pp. 97-108 ◽  
Author(s):  
Erzsébet Kiss ◽  
Eugenio Garribba ◽  
Giovanni Micera ◽  
Tamás Kiss ◽  
Hiromu Sakurai
Keyword(s):  
Complex Formation ◽  
Blood Serum ◽  
Ternary Complex ◽  
Picolinic Acid ◽  
Ternary Complex Formation

scholarly journals The acute transcriptional responses to dietary methionine restriction are triggered by inhibition of ternary complex formation and linked to Erk1/2, mTOR, and ATF4

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Kirsten P. Stone ◽  
Sujoy Ghosh ◽  
Jean Paul Kovalik ◽  
Manda Orgeron ◽  
Desiree Wanders ◽  
...  
Keyword(s):  
Stress Response ◽  
Complex Formation ◽  
Ternary Complex ◽  
Target Genes ◽  
Bioinformatic Analysis ◽  
Transcriptional Responses ◽  
Metabolomics Data ◽  
Ternary Complex Formation ◽  
Methionine Restriction

AbstractThe initial sensing of dietary methionine restriction (MR) occurs in the liver where it activates an integrated stress response (ISR) that quickly reduces methionine utilization. The ISR program is regulated in part by ATF4, but ATF4’s prototypical upstream regulator, eIF2α, is not acutely activated by MR. Bioinformatic analysis of RNAseq and metabolomics data from liver samples harvested 3 h and 6 h after initiating MR shows that general translation is inhibited at the level of ternary complex formation by an acute 50% reduction of hepatic methionine that limits formation of initiator methionine tRNA. The resulting ISR is induced by selective expression of ATF4 target genes that mediate adaptation to reduced methionine intake and return hepatic methionine to control levels within 4 days of starting the diet. Complementary in vitro experiments in HepG2 cells after knockdown of ATF4, or inhibition of mTOR or Erk1/2 support the conclusion that the early induction of genes by MR is partially dependent on ATF4 and regulated by both mTOR and Erk1/2. Taken together, these data show that initiation of dietary MR induces an mTOR- and Erk1/2-dependent stress response that is linked to ATF4 by the sharp, initial drop in hepatic methionine and resulting repression of translation pre-initiation.

Ternary complex formation of the nickel(II), 2,2’-bipyridine, 1,10’-Phenanthroline and some aminoacids

2021 ◽  
pp. 1-11
Author(s):  
Yoselin Jara ◽  
Mary Lorena Araujo ◽  
Waleska Madden ◽  
Vito Lubes ◽  
Lino Hernández
Keyword(s):  
Complex Formation ◽  
Ternary Complex ◽  
Ternary Complex Formation
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