Estela Sánchez de Jiménez scite author profile

Recent years have seen considerable progress in epidemiological and molecular genetic research into environmental and genetic factors in schizophrenia, but methodological uncertainties remain with regard to validating environmental exposures, and the population risk conferred by individual molecular genetic variants is small. There are now also a limited number of studies that have investigated molecular genetic candidate gene-environment interactions (G × E), however, so far, thorough replication of findings is rare and G × E research still faces several conceptual and methodological challenges. In this article, we aim to review these recent developments and illustrate how integrated, large-scale investigations may overcome contemporary challenges in G × E research, drawing on the example of a large, international, multi-center study into the identification and translational application of G × E in schizophrenia. While such investigations are now well underway, new challenges emerge for G × E research from late-breaking evidence that genetic variation and environmental exposures are, to a significant degree, shared across a range of psychiatric disorders, with potential overlap in phenotype.

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Functional Characterization of a Maize Ribosomal S6 Protein Kinase (ZmS6K), a Plant Ortholog of Metazoan p70^S6K

Cruz

Aguilar

Jiménez

2003

Biochemistry

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Ribosomal protein S6 (S6rp) is phosphorylated by the p70S6K enzyme in mammals, under mitogen/IGF regulation. This event has been correlated with an increase in 5'TOP mRNA translation. In this research, a maize S6 kinase (ZmS6K) was isolated from maize (Zea mays L.) embryonic axes by human p70S6K antibody immunoprecipitation. This enzyme, a 62 kDa peptide, proved to be specific for S6rp phosphorylation, as revealed by in vivo and in vitro kinase activity using either the 40S ribosomal subunit or the RSK synthetic peptide as the substrates. ZmS6K activation was achieved by phosphorylation on serine/threonine residues. Specific phospho-Threo recognition by the p70S6K antibody directed to target phospho-Threo residue 389 correlated with ZmS6K activation. The ZmS6K protein content remained almost steady during maize seed germination, whereas the ZmS6K activity increased during this process, consistent with Zm6SK phosphorylation. Addition of insulin to germinating maize axes proved to increase ZmS6K activity and the extent of S6rp phosphorylation. These events were blocked by rapamycin, an inhibitor of the insulin signal transduction pathway in mammals, at the TOR (target of rapamycin) enzyme level. We conclude that ZmS6K is a kinase, structurally and functionally ortholog of the mammalian p70S6K, responsible for in vivo S6rp phosphorylation in maize. Its activation is induced by insulin in a TOR-dependent manner by phosphorylation on conserved serine/threonine residues.

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DNA Synthesis and Cell Division in Embryonic Maize Tissues during Germination

Baíza¹,

Vázquez-Ramos²,

Jiménez³

1989

Journal of Plant Physiology

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Cap‐independent translation of maize Hsp101

et al. 2005

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SummaryMaize embryonic axes contain stored mRNAs, some of which are able to undergo cap-independent translation initiation during germination. The Hsp101 mRNA, encoding a heat shock protein, is essential for thermotolerance induction and is present among the stored transcripts. This research aimed to investigate whether the Hsp101 transcript is IRES-driven regulated upon heat stress. Hsp101 transcribed either in vitro or in vivo was efficiently translated via a cap-independent mechanism. This was observed either in an animal in vitro translation system containing proteolytically cleaved eukaryotic initiation factor eIF4G or in a plant system lacking both eIF4E and eIFiso4E initiation factors. Deletion of the 5¢ untranslated region (UTR) from the Hsp101 mRNA abolished its cap-independent translation indicating that this nucleotide sequence is required to confer cap-independent initiation. Bicistronic constructs containing the Hsp101 mRNA 5¢UTR in sense and anti-sense directions between two reporter genes were translated in both cap-independent systems. A similar bicistronic construct containing a viral internal ribosome entry site (IRES) element between the reporter genes was used as control. Internal translation of the second reporter gene was observed when the Hsp101 5¢UTR was in the sense but not in the anti-sense orientation in the bicistronic construct. Taken together, these data suggest that the 5¢UTR of maize Hsp101, a plant cellular mRNA, functions as an IRES-like element accounting for its capindependent translation during heat stress.

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Dissecting the TOR–S6K signal transduction pathway in maize seedlings: relevance on cell growth regulation

Dinkova

Cruz

García‐Flores

et al. 2007

Physiologia Plantarum

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Insulin and ‘insulin‐like’ growth factors (IGFs) are known to regulate cell growth in eukaryotes by stimulating a signal transduction pathway that exerts translational control. Intermediate kinases of this pathway, target of rapamycin (TOR) and ribosomal protein S6 kinase (S6K), have been reported in Arabidospsis thaliana and Zea mays. However, upstream signal inducers and downstream targets of the pathway are not well known in plants. The objective of this work is to inquire whether plant growth is regulated by a signal transduction pathway similar to the insulin/IGF‐stimulated pathway in other metazoans. Insulin as well as Zea mays insulin‐related peptide (ZmIGF), which is a maize, 20‐kDa peptide fraction recognized by insulin antibody, were used as effectors to stimulate maize axes growth from germinating seeds. ZmIGF expression was identified in axes from germinating maize seeds and immunolocalized in the meristems of these tissues. Significant enhancement of specific de novo protein synthesis of the translational apparatus components was found in the stimulated axes. Reverse‐transcription‐polymerase chain reaction analysis of total and polysomal RNA pools in ZmIGF‐ or insulin‐stimulated axes confirmed these data by revealing specific mRNA recruitment into polysomes. In addition, the same stimuli induced activation of S6 ribosomal protein kinase (ZmS6K) in germinating maize axes. All the above effects were inhibited by rapamycin, indicating that they depend on TOR activity. We conclude that a TOR–S6K signal transduction pathway is functional in maize germination, as that found for non‐photosynthetic eukaryotes. The evolutionary implications of these findings are discussed.

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