Maria S. Conejo scite author profile

The ROK (repressor, open reading frame, kinase) protein family (Pfam 00480) is a large collection of bacterial polypeptides that includes sugar kinases, carbohydrate responsive transcriptional repressors, and many functionally uncharacterized gene products. ROK family sugar kinases phosphorylate a range of structurally distinct hexoses including the key carbon source D: -glucose, various glucose epimers, and several acetylated hexosamines. The primary sequence elements responsible for carbohydrate recognition within different functional categories of ROK polypeptides are largely unknown due to a limited structural characterization of this protein family. In order to identify the structural bases for substrate discrimination in individual ROK proteins, and to better understand the evolutionary processes that led to the divergent evolution of function in this family, we constructed an inclusive alignment of 227 representative ROK polypeptides. Phylogenetic analyses and ancestral sequence reconstructions of the resulting tree reveal a discrete collection of active site residues that dictate substrate specificity. The results also suggest a series of mutational events within the carbohydrate-binding sites of ROK proteins that facilitated the expansion of substrate specificity within this family. This study provides new insight into the evolutionary relationship of ROK glucokinases and non-ROK glucokinases (Pfam 02685), revealing the primary sequence elements shared between these two protein families, which diverged from a common ancestor in ancient times.

show abstract

The Early Evolution of the Phosphagen Kinases—Insights from Choanoflagellate and Poriferan Arginine Kinases

Conejo

Bertin

Pomponi

et al. 2007

J Mol Evol

View full text Add to dashboard Cite

Arginine kinase (AK) is a member of a large family of phosphoryl transfer enzymes called phosphagen (guanidino) kinases. AKs are present in certain protozoans, sponges, cnidarians, and both lophotrochozoan and ecdysozoan protostomes. Another phosphagen kinase, creatine kinase (CK), is found in sponges, cnidarians, and both deuterostome and protostome groups but does not appear to be present in protozoans. To probe the early evolution of phosphagen kinases, we have amplified the cDNAs for AKs from three choanoflagellates and from the hexactinellid sponge Aphrocallistes beatrix and the demosponges Suberites fuscus and Microciona prolifera. Phylogenetic analysis using maximum likelihood of these choanoflagellate and sponge AKs with other AK sequences revealed that the AK from the choanoflagellate Monosiga brevicollis clusters with the AK from the glass sponge Aphrocallistes and is part of a larger cluster containing AKs from the demosponges Suberites and Microciona as well as basal and protostome invertebrates. In contrast, AKs from Codonosiga gracilis and Monosiga ovata form a distinct cluster apart from all other AK sequences. tBLASTn searches of the recently released M. brevicollis genome database showed that this species has three unique AK genes-one virtually identical to the M. brevicollis cDNA and the other two showing great similarity to C. gracilis and M. ovata AKs. Three distinct AK genes are likely present in choanoflagellates. Two of these AKs display extensive similarity to both CKs and an AK from sponges. Previous work has shown CK evolved from an AK-like ancestor prior to the divergence of sponges. The present results provide evidence suggesting that the initial gene duplication event(s) leading to the CK lineage may have occurred before the divergence of the choanoflagellate and animal lineages.

show abstract

The Selection and Use of Sorghum (Sorghum propinquum) Bacterial Artificial Chromosomes as Cytogenetic FISH Probes for Maize (Zea mays L.)

Figueroa

Davis

Strobel

et al. 2010

BioMed Research International

View full text Add to dashboard Cite

The integration of genetic and physical maps of maize is progressing rapidly, but the cytogenetic maps lag behind, with the exception of the pachytene fluorescence in situ hybridization (FISH) maps of maize chromosome 9. We sought to produce integrated FISH maps of other maize chromosomes using Core Bin Marker loci. Because these 1 Kb restriction fragment length polymorphism (RFLP) probes are below the FISH detection limit, we used BACs from sorghum, a small-genome relative of maize, as surrogate clones for FISH mapping. We sequenced 151 maize RFLP probes and compared in silico BAC selection methods to that of library filter hybridization and found the latter to be the best. BAC library screening, clone verification, and single-clone selection criteria are presented along with an example of transgenomic BAC FISH mapping. This strategy has been used to facilitate the integration of RFLP and FISH maps in other large-genome species.

show abstract

Role of connecting loop I in catalysis and allosteric regulation of human glucokinase

et al. 2014

View full text Add to dashboard Cite

Glucokinase (GCK, hexokinase IV) is a monomeric enzyme with a single glucose binding site that displays steady-state kinetic cooperativity, a functional characteristic that affords allosteric regulation of GCK activity. Structural evidence suggests that connecting loop I, comprised of residues 47-71, facilitates cooperativity by dictating the rate and scope of motions between the large and small domains of GCK. Here we investigate the impact of varying the length and amino acid sequence of connecting loop I upon GCK cooperativity. We find that sequential, single amino acid deletions from the C-terminus of connecting loop I cause systematic decreases in cooperativity. Deleting up to two loop residues leaves the k cat value unchanged; however, removing three or more residues reduces k cat by 1000-fold. In contrast, the glucose K 0.5 and K D values are unaffected by shortening the connecting loop by up to six residues. Substituting alanine or glycine for proline-66, which adopts a cis conformation in some GCK crystal structures, does not alter cooperativity, indicating that cis/trans isomerization of this loop residue does not govern slow conformational reorganizations linked to hysteresis. Replacing connecting loop I with the corresponding loop sequence from the catalytic domain of the noncooperative isozyme human hexokinase I (HK-I) eliminates cooperativity without impacting the k cat and glucose K 0.5 values. Our results indicate that catalytic turnover requires a minimal length of connecting loop I, whereas the loop has little impact upon the binding affinity of GCK for glucose. We propose a model in which the primary structure of connecting loop I affects cooperativity by influencing conformational dynamics, without altering the equilibrium distribution of GCK conformations.

show abstract

Solubility phenomena related to CO₂ capture and storage

Visscher¹,

Conejo²

2013

View full text Add to dashboard Cite

Capturing CO2 emissions from energy production and storing it under the ground is a potential CO2 mitigation strategy that currently receives much attention. Both CO2 capture and CO2 storage are solubility problems. This paper reviews some important solubility aspects of CO2 capture and storage that are often overlooked. Until very recently, there was not a single CO2 solubility relationship that was both applicable in a wide temperature range and thermodynamically consistent with the enthalpy of solution of CO2. Furthermore, very often the relationship used for the first acidity constant of carbonic acid as a function of temperature is inconsistent with the relationship used for the solubility constant (or Henry constant) of CO2. The removal of CO2 from a gas stream with amine solutions is usually viewed as a chemical reaction, which leads to the practice of heating to remove the CO2 from the solvent. However, viewing this process as a solubility phenomenon suggests the practice of using vacuum to remove the CO2 from the solvent, a potentially more efficient approach.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Maria S. Conejo

Evolutionary Bases of Carbohydrate Recognition and Substrate Discrimination in the ROK Protein Family

The Early Evolution of the Phosphagen Kinases—Insights from Choanoflagellate and Poriferan Arginine Kinases

The Selection and Use of Sorghum (Sorghum propinquum) Bacterial Artificial Chromosomes as Cytogenetic FISH Probes for Maize (Zea mays L.)

Role of connecting loop I in catalysis and allosteric regulation of human glucokinase

Solubility phenomena related to CO₂ capture and storage

Contact Info

Product

Resources

About

Maria S. Conejo

Evolutionary Bases of Carbohydrate Recognition and Substrate Discrimination in the ROK Protein Family

The Early Evolution of the Phosphagen Kinases—Insights from Choanoflagellate and Poriferan Arginine Kinases

The Selection and Use of Sorghum (Sorghum propinquum) Bacterial Artificial Chromosomes as Cytogenetic FISH Probes for Maize (Zea mays L.)

Role of connecting loop I in catalysis and allosteric regulation of human glucokinase

Solubility phenomena related to CO2 capture and storage

Contact Info

Product

Resources

About

Solubility phenomena related to CO₂ capture and storage