Secondary EWSR1 gene abnormalities in SMARCB1-deficient tumors with 22q11-12 regional deletions: Potential pitfalls in interpreting EWSR1 FISH results.

SMARCB1 inactivation occurs in a variety of tumors, being caused by various genetic mechanisms. Since SMARCB1 and EWSR1 genes are located close to each other on chromosome 22, larger SMARCB1 deletions may encompass the EWSR1 locus. Herein, we report four cases with SMARCB1-deletions showing concurrent EWSR1 gene abnormalities by FISH, which lead initially to misinterpretations as EWSR1-rearranged tumors. Our study group included various morphologies: a poorly differentiated chordoma, an extrarenal rhabdoid tumor, a myoepithelial carcinoma, and a proximal-type epithelioid sarcoma. All cases showed loss of SMARCB1 (INI1) by immunohistochemistry (IHC) and displayed characteristic histologic features for the diagnoses. The SMARCB1 FISH revealed homozygous or heterozygous deletions in three and one case, respectively. The co-hybridized EWSR1 probes demonstrated either unbalanced split signals or heterozygous deletion in two cases each. The former suggested bona fide rearrangement, while the latter resembled an unbalanced translocation. However, all the FISH patterns were quite complex and distinct from the simple and uniform split signals seen in typical EWSR1 rearrangements. We conclude that in the context of 22q11-12 regional alterations present in SMARCB1-deleted tumors, simultaneous EWSR1 involvement may be misinterpreted as equivalent to EWSR1 rearrangement. A detailed clinicopathologic correlation and supplementing the EWSR1 FISH assay with complementary methodology is mandatory for correct diagnosis. © 2016 Wiley Periodicals, Inc.

RNA sequencing identifies fusion of the EWSR1 and YY1 genes in mesothelioma with t(14;22)(q32;q12).

Mesothelioma is a rare but very aggressive tumor derived from mesothelial cells. A number of often complex but nonrandom cytogenetic abnormalities have been found in these tumors, resulting in loss of chromosome bands 14q32 and 22q12 in more than 35% of the cases. In this study, we used RNA sequencing to search for fusion transcripts in a mesothelioma carrying a t(14;22)(q32;q12) as the sole chromosomal aberration and found an EWSR1-YY1 and its reciprocal YY1-EWSR1 fusion transcript. Screening 15 additional cases of mesothelioma from which we had RNA but no cytogenetic information, we identified one more tumor carrying an EWSR1-YY1 fusion gene but not the reciprocal YY1-EWSR1 transcript. RT-polymerase chain reaction and sequencing showed that in both cases exon 8 of EWSR1 (nucleotide 1,139, accession number NM_013986 version 3, former exon 7 in sequence with accession number X66899) was fused to exon 2 of YY1 (nucleotide 1,160, accession number NM_003403 version 3). The EWSR1 breakpoint in exon 8 in the EWSR1-YY1 chimeric transcript is similar to what is found in other fusions involving EWSR1 such as EWSR1-FLI1, EWSR1-DDIT3, and EWSR1-ATF1. The EWSR1-YY1-encoded protein is an abnormal transcription factor with the transactivation domain of EWSR1 and the DNA-binding domain of YY1. This is the first study to detect a specific fusion gene in mesothelioma (the reason how frequent the EWSR1-YY1 fusion is remains uncertain) and also the first time that direct involvement of YY1 in oncogenesis has been demonstrated.

The primary identification of a calcineurin A subunit-like protein in plants.

Many types of serine/threonine protein phosphatase have been cloned and characterized in plants, such as Type-1 serine/threonine protein phosphatase (PP1), Type-2A serine/threonine protein phosphatase (PP2A), Type-2C serine/threonine protein phosphatase (PP2C). However no Type-2B serine/threonine protein phosphatase (PP2B, calcineurin), or calcineurin A subunit-like protein (CaNAL), has been identified. We detected protein phosphatase activity in mixtures of CaM-binding proteins from three plants (Nicotiana tabacum, Brassica oleracea and Arabidopsis thaliana). Two-dimensional electrophoresis (2-D) and Western blot analysis with an anti-rat CNA antibody revealed a small protein of 60 kDa that we believe is a CaNAL. The isoelectric point (pI) of this protein in N. tabacum was approximately 5.69. The protein phosphatase activity in the mixture of CaM-binding proteins from N. tabacum was regulated by Ca(2+) and Calmodulin (CaM) with either RII peptides or pNPP as substrate. The immunosuppressive drugs, CsA and FK506, also inhibited the protein phosphatase activity significantly.

In vitro characterization of native mammalian smooth-muscle protein synaptopodin 2.

An analysis of the primary structure of the actin-binding protein fesselin revealed it to be the avian homologue of mammalian synaptopodin 2 [Schroeter, Beall, Heid, and Chalovich (2008) Biochem. Biophys. Res. Commun. 371, 582-586]. We isolated two synaptopodin 2 isoforms from rabbit stomach that corresponded to known types of human synaptopodin 2. The purification scheme used was that developed for avian fesselin. These synaptopodin 2 forms shared several key functions with fesselin. Both avian fesselin and mammalian synaptopodin 2 bound to Ca(2+)-calmodulin, alpha-actinin and smooth-muscle myosin. In addition, both proteins stimulated the polymerization of actin in a Ca(2+)-calmodulin-dependent manner. Synaptopodin 2 has never before been shown to polymerize actin in the absence of alpha-actinin, to polymerize actin in a Ca(2+)-calmodulin-dependent manner, or to bind to Ca(2+)-calmodulin or myosin. These properties are consistent with the proposed function of synaptopodin 2 in organizing the cytoskeleton.

[The influence of caldesmon on strong binding of myosin with actin in denervated rat skeletal muscles].

The effect of caldesmon (CaD) on conformational changes in F-actin modified by fluorescent probe TRITC-phalloidin was investigated by polarized fluorimetry. Changes were induced by a subfragment-1 (S-1) of myosin in the absence or presence of CaD in ghost muscle fibers obtained from intact and denervated slow (SOL) and fast (EDL) skeletal muscles of rats. S-1 binding to actin of both SOL and EDL muscles was shown to cause changes in polarized parameters of TRITC-phalloidin typical for a strong actin-myosin binding as well as of transition ofactin subunits from "off" to "on" state. CaD inhibits this significantly. Denervation atrophy inhibits the effect of S-1 as well but does not affect the capability of CaD decreasing the formation of strong binding in actomyosin complex. It is supposed that CaD "freezes" F-actin structure in "off" state. The denervation atrophy has no effect on CaD responsibility to bind thin filaments and to switch "off" actin monomers.

Isolation, characterization, and bioinformatic analysis of calmodulin-binding protein cmbB reveals a novel tandem IP22 repeat common to many Dictyostelium and Mimivirus proteins.

A novel calmodulin-binding protein cmbB from Dictyostelium discoideum is encoded in a single gene. Northern analysis reveals two cmbB transcripts first detectable at 4 h during multicellular development. Western blotting detects an approximately 46.6 kDa protein. Sequence analysis and calmodulin-agarose binding studies identified a "classic" calcium-dependent calmodulin-binding domain (179IPKSLRSLFLGKGYNQPLEF198) but structural analyses suggest binding may not involve classic alpha-helical calmodulin-binding. The cmbB protein is comprised of tandem repeats of a newly identified IP22 motif ([I,L]Pxxhxxhxhxxxhxxxhxxxx; where h = any hydrophobic amino acid) that is highly conserved and a more precise representation of the FNIP repeat. At least eight Acanthamoeba polyphaga Mimivirus proteins and over 100 Dictyostelium proteins contain tandem arrays of the IP22 motif and its variants. cmbB also shares structural homology to YopM, from the plague bacterium Yersenia pestis.

Isolation and characterization of Dictyostelium thymidine kinase 1 as a calmodulin-binding protein.

Probing of a cDNA expression library from multicellular development of Dictyostelium discoideum using a recombinant radiolabelled calmodulin probe (35S-VU1-CaM) led to the isolation of a cDNA encoding a putative CaM-binding protein (CaMBP). The cDNA contained an open reading frame of 951 bp encoding a 227aa polypeptide (25.5 kDa). Sequence comparisons led to highly significant matches with cytosolic thymidine kinases (TK1; EC 2.7.1.21) from a diverse number of species including humans (7e-56; 59% Identities; 75% Positives) indicating that the encoded protein is D. discoideum TK1 (DdTK1; ThyB). DdTK1 has not been previously characterized in this organism. In keeping with its sequence similarity with DdTK1, antibodies against humanTK1 recognize DdTK1, which is expressed during growth but decreases in amount after starvation. A CaM-binding domain (CaMBD; 20GKTTELIRRIKRFNFANKKC30) was identified and wild type DdTK1 plus two constructs (DdTK deltaC36, DdTK deltaC75) possessing the domain were shown to bind CaM in vitro but only in the presence of calcium while a construct (DdTK deltaN72) lacking the region failed to bind to CaM. Thus, DdTK1 is a Ca2+-dependent CaMBP. Sequence alignments against TK1 from vertebrates to viruses show that CaM-binding region is highly conserved. The identified CaMBD overlaps the ATP-binding (P-loop) domain suggesting CaM might affect the activity of this kinase. Recombinant DdTK is enzymatically active and showed stimulation by CaM (113+/-0.5%) an in vitro enhancement that was prevented by co-addition of the CaM antagonists W7 (91.2+/-0.8%) and W13 (96.6+/-0.6%). The discovery that TK1 from D. discoideum, and possibly other species including humans and a large number of human viruses, is a Ca2+-dependent CaMBP opens up new avenues for research on this medically relevant protein.

Studies of calmodulin-dependent regulation.

Methods are presented for purifying bovine testes calmodulin and the calmodulin-regulated plasma-membrane calcium ATPase from human erythrocytes by calcium dependent affinity chromatography. The assay of CaM Kinase II using a synthetic peptide substrate is also described.

Evidence for the direct interaction between calmodulin and the human epidermal growth factor receptor.

Previous work from our laboratory has demonstrated that the Ca(2+)-calmodulin complex inhibits the intrinsic tyrosine kinase activity of the epidermal growth factor receptor (EGFR), and that the receptor can be isolated by Ca(2+)-dependent calmodulin-affinity chromatography [San José, Bengurija, Geller and Villalobo (1992) J. Biol. Chem. 267, 15237-15245]. Moreover, we have demonstrated that the cytosolic juxtamembrane region of the human receptor (residues 645-660) binds calmodulin in a Ca(2+)-dependent manner when this segment forms part of a recombinant fusion protein [Martijn-Nieto and Villalobo (1998) Biochemistry 37, 227-236]. However, demonstration of the direct interaction between calmodulin and the whole receptor has remained elusive. In this work, we show that calmodulin, in the presence of Ca(2+), forms part of a high-molecular-mass complex built upon covalent cross-linkage of the human EGFR immunoprecipitated from two cell lines overexpressing this receptor. Although several calmodulin-binding proteins co-immunoprecipitated with the EGFR, suggesting that they interact with the receptor, we demonstrated using overlay techniques that biotinylated calmodulin binds directly to the receptor in a Ca(2+)-dependent manner without the mediation of any adaptor calmodulin-binding protein. Calmodulin binds to the EGFR with an apparent dissociation constant (K'(d)) of approx. 0.2-0.3 microM. Treatment of cells with epidermal growth factor, or with inhibitors of protein kinase C and calmodulin-dependent protein kinase II, or treatment of the immunoprecipitated receptor with alkaline phosphatase, does not significantly affect the binding of biotinylated calmodulin to the receptor.

Phosphorylation of molluscan twitchin by the cAMP-dependent protein kinase.

Catch in certain molluscan muscles is released by an increase in cAMP, and it was suggested that the target of cAMP-dependent protein kinase (PKA) is the high molecular weight protein twitchin [Siegman, M. J., Funabara, J., Kinoshita, S., Watabe, S., Hartshorne, D. J., and Butler, T. M. (1998) Proc. Natl. Acad. Sci. U.S.A. 95, 5384-5388]. This study was carried out to investigate the phosphorylation of twitchin by PKA. Twitchin was isolated from Mytilus catch muscles and was phosphorylated by PKA to a stoichiometry of about 3 mol of P/mol of twitchin. There was no evidence of twitchin autophosphorylation. Two phosphorylated peptides were isolated and sequenced, termed D1 and D2. Additional cDNA sequence for twitchin was obtained, and the D2 site was located at the C-terminal side of the putative kinase domain in a linker region between two immunoglobulin C2 repeats. Excess PKA substrates, e.g., D1 and D2, blocked the reduction in force on addition of cAMP, confirming the role for PKA in regulating catch. Papain proteolysis of (32)P-labeled twitchin from permeabilized muscles showed that the D1 site represented about 50% of the (32)P labeling. Proteolysis of in-situ twitchin with thermolysin suggested that the D1 and D2 sites were at the N- and C-terminal ends of the molecule, respectively. Thermolysin proteolysis also indicated that D1 and D2 were major sites of phosphorylation by PKA. The direct phosphorylation of twitchin by PKA is consistent with a regulatory role for twitchin in the catch mechanism and probably involves phosphorylation at the D1 and D2 sites.

[Isolation, purification and identification of metallothionein from strain BD102 of Hansenula anomala].

Metallothionein (MTs) in Cu and Cd resistant strain BD102 of Hansenula anomala were induced by administration of Cu2+ and Cd2+. These proteins were isolated and purified by Sephadex G-50 and subsequent DEAE-Sepharose CL-6B, then Sephadex G-25 for desalation. There were two isoform MTs by Cu(Cu-MTs), one form induced by Cd (Cd-MT). The molecular weights of the Cu-MTs and the Cd-MT were about 7 kD and 7.5 kD respectively. Exposure of Hansenula anomala to copper salts stimulated formation of two isoform Cu-MTs with a cysteine content of 6.6-6.8% and had 60 amino acids. Exposure of Hansenula anomala to cadmium, stimulated formation of Cd-MT with a cystein content of 10% was synthesized and had 61 amino acids. 4 atom Cu or Cd/mole MTs.

Identification of a human centrosomal calmodulin-binding protein that shares homology with pericentrin.

Eukaryotic chromosome segregation depends on the mitotic spindle apparatus, a bipolar array of microtubules nucleated from centrosomes. Centrosomal microtubule nucleation requires attachment of gamma-tubulin ring complexes to a salt-insoluble centrosomal core, but the factor(s) underlying this attachment remains unknown. In budding yeast, this attachment is provided by the coiled-coil protein Spc110p, which links the yeast gamma-tubulin complex to the core of the yeast centrosome. Here, we show that the large coiled-coil protein kendrin is a human orthologue of Spc110p. We identified kendrin by its C-terminal calmodulin-binding site, which shares homology with the Spc110p calmodulin-binding site. Kendrin localizes specifically to centrosomes throughout the cell cycle. N-terminal regions of kendrin share significant sequence homology with pericentrin, a previously identified murine centrosome component known to interact with gamma-tubulin. In mitotic human breast carcinoma cells containing abundant centrosome-like structures, kendrin is found only at centrosomes associated with spindle microtubules.

A tobacco plasma membrane calmodulin-binding transporter confers Ni2+ tolerance and Pb2+ hypersensitivity in transgenic plants.

All organisms require a minimal amount of metal ions to sustain their metabolism, growth and development. At the same time, their intrinsic metal-uptake systems render them vulnerable to toxic levels of metals in the biosphere. Using radiolabeled recombinant calmodulin as a probe to screen a tobacco cDNA library, we have discovered a protein designated NtCBP4 (Nicotiana tabacum calmodulin-binding protein) that can modulate plant tolerance to heavy metals. Structurally, NtCBP4 is similar to vertebrate and invertebrate K+ and to non-selective cation channels, as well as to recently reported proteins from barley and Arabidopsis. Here we report on the subcellular localization of NtCBP4 and the phenotype of transgenic plants overexpressing this protein. The localization of NtCBP4 in the plasma membrane was manifested by fractionating tobacco membranes on sucrose gradients or by aqueous two-phase partitioning, and subsequently using immunodetection. Several independent transgenic lines expressing NtCBP4 had higher than normal levels of NtCBP4. These transgenic lines were indistinguishable from wild type under normal growth conditions. However, they exhibited improved tolerance to Ni2+ and hypersensitivity to Pb2+, which are associated with reduced Ni2+ accumulation and enhanced Pb2+ accumulation, respectively. To our knowledge this is the first report of a plant protein that modulates plant tolerance or accumulation of Pb2+. We propose that NtCBP4 is involved in metal uptake across the plant plasma membrane. This gene may prove useful for implementing selective ion tolerance in crops and improving phytoremediation strategies.

Identification of kinesin-C, a calmodulin-binding carboxy-terminal kinesin in animal (Strongylocentrotus purpuratus) cells.

Several novel members of the kinesin superfamily, until now identified only in plants, are unique in their ability to bind calmodulin in the presence of Ca(2+). Here, we identify the first such kinesin in an animal system. Sequence analysis of this new motor, called kinesin-C, predicts that it is a large carboxy-terminal kinesin, 1624 amino acid residues in length, with a predicted molecular mass of 181 kDa. Kinesin-C is predicted to contain a kinesin motor domain at its carboxy terminus, linked to a segment of alpha-helical coiled-coil 950 amino acid residues long, ending with an amino-terminal proline-rich tail domain. A putative calmodulin-binding domain resides at the extreme carboxy terminus of the motor polypeptide, and recombinant kinesin-C binds to a calmodulin-affinity column in a Ca(2+)-dependent fashion. The presence of this novel calmodulin-binding motor in sea urchin embryos suggests that it plays a critical role in Ca(2+)-dependent events during early sea urchin development.

Evidence for an interaction between adducin and Na(+)-K(+)-ATPase: relation to genetic hypertension.

Adducin point mutations are associated with genetic hypertension in Milan hypertensive strain (MHS) rats and in humans. In transfected cells, adducin affects actin cytoskeleton organization and increases the Na(+)-K(+)-pump rate. The present study has investigated whether rat and human adducin polymorphisms differently modulate rat renal Na(+)-K(+)-ATPase in vitro. We report the following. 1) Both rat and human adducins stimulate Na(+)-K(+)-ATPase activity, with apparent affinity in tens of nanomolar concentrations. 2) MHS and Milan normotensive strain (MNS) adducins raise the apparent ATP affinity for Na(+)-K(+)-ATPase. 3) The mechanism of action of adducin appears to involve a selective acceleration of the rate of the conformational change E(2) (K) --> E(1) (Na) or E(2)(K). ATP --> E(1)Na. ATP. 4) Apparent affinities for mutant rat and human adducins are significantly higher than those for wild types. 5) Recombinant human alpha- and beta-adducins stimulate Na(+)-K(+)-ATPase activity, as do the COOH-terminal tails, and the mutant proteins display higher affinities than the wild types. 6) The cytoskeletal protein ankyrin, which is known to bind to Na(+)-K(+)-ATPase, also stimulates enzyme activity, whereas BSA is without effect; the effects of adducin and ankyrin when acting together are not additive. 7) Pig kidney medulla microsomes appear to contain endogenous adducin; in contrast with purified pig kidney Na(+)-K(+)-ATPase, which does not contain adducin, added adducin stimulates the Na(+)-K(+)-ATPase activity of microsomes only about one-half as much as that of purified Na(+)-K(+)-ATPase. Our findings strongly imply the existence of a direct and specific interaction between adducin and Na(+)-K(+)-ATPase in vitro and also suggest the possibility of such an interaction in intact renal membranes.

Detección y expresión de una proteína de unión a calmodulina durante el ciclo celular asexual de Plasmodium falciparum / Detection of Giardia lamblia Colombian strains antigens in eluates from human faeces using the specific anti-31, 65 and 170 kDa parasitic policlonal antibodies by ELISA

Los organismos vivos han establecido varios mecanismos con los cuales traducen las señales extracelulares a un mensaje intracelular que puede ser entendido por la maquinaria bioquímica de la célula. En eucariotes la calmodulina juega un papel central en el procesamiento de la señal de calcio, disparando respuestas bioquímicas altamente específicas que se ejercen a través de las proteínas de unión a calmodulina PUCaM, proteínas que se convierten realmente en las moléculas efectoras de una cascada de eventos donde la respuesta final depende de la PUCaM activada. En Plasmodium falciparum se ha reportado la presencia de calmodulina y se sabe que el calcio juega un papel determinante en diferentes eventos del parásito, sin embargo aun no se ha establecido el compromiso de las PUCaMs. En el grupo de bioquímica del INS se aislaron 9 PUCaMs, de las cuales se escogió una de 30 kDa para este estudio. Se produjo un anticuerpo monoclonal contra la PUCaM de 30 kDa que nos permitió detectar, localizar y establecer el patrón de expresión de la proteína durante el ciclo asexual del parásito. Mediante Western blot se detectó la proteína de interés en extractos de parásito como una banda a la altura de 30 kDa y adicionalmemte el anticuerpo presentó reacción cruzada con las cadenas de la espectrina sugeriendo la presencia de un epítope similar o una estructura estrechamente relacionada en ambas proteínas. Los estudios de localización celular se realizaron por inmunofluorescencia indirecta y éstos mostraron una señal fluorescente dispersa únicamente en el citoplasma del parásito. Ni la membrana, ni el citoplasma de los eritrocitos infectados y los eritrocitos sanos presentaron fluorescencia, corroborando el origen plasmodial de la proteína de 30 kDa. La cinética de expresión reveló que esta proteína es expresada de una manera estado específica (en estadios maduros de 40 y 48 horas) lo que lleva a pensar que la PUCaM de 30 kDa es regulada a lo largo del desarrollo del parásito- Este estudio preliminar confirma la presencia de una proteína de union a calmodulina de 30 kDa en Plasmodium falciparum y abre grandes interrogantes que plantean la necesidad de continuar con estudios futuros para determinar con exactitud la identidad de la proteína y llegar a establecer su papel en los diferentes procesos del parásito, así como entender la fisiología de la señal de calcio en este organismo

Identification of a neuronal calmodulin-binding peptide, CAP-19, containing an IQ motif.

Neurons produce polypeptides which can bind the calcium-poor or pre-activated form of calmodulin. It is expected that this class of peptide will serve an important role in maintaining cellular homeostasis since it would modulate calcium-dependent target regulation and redirect intracellular signaling. The lack of conserved sequence has made the identification of these peptides difficult, consequently leading us to exploit their property of binding calcium-poor calmodulin as a means of finding new species. A new peptide termed Calmodulin-Associated Peptide-19 (CAP-19) was purified and characterized. The protein-sequence information was employed in order to recover a cDNA clone from rat which included the entire reading frame for the peptide. Like its counterparts, neuromodulin (GAP-43), neurogranin (RC3) and PEP-19, it contains an IQ motif although the remainder of the peptide is quite different. Northern blot analysis of ribonucleic acid (RNA) from animals of differing ages indicated that the message appears at birth and then persists into adulthood. Antibodies to synthetic peptide were employed for localizing CAP-19. The results indicated that the peptide was localized to neurons in several brain regions. CAP-19 is similar to other calmodulin-binding proteins in that the domain spanning the IQ motif was demonstrated to participate in binding to calmodulin. Database searching showed CAP-19 to be homologous to the silkworm protein, multiprotein bridging factor 1 (MBF1). This homology suggests a potential new role for calmodulin-associated proteins in cellular homeostasis.

Ca2+/calmodulin regulation of the Arabidopsis kinesin-like calmodulin-binding protein.

The kinesin family motor protein KCBP (kinesin-like calmodulin binding protein) was identified during a screen for Arabidopsis calmodulin-binding proteins [Reddy, et al., 1996b: J. Biol Chem. 271:7052-7060]. KCBP contains a C-terminal motor domain and is unique among kinesin motors in that it has a calmodulin-binding site. We expressed the KCBP motor domain in Escherichia coli and examined its microtubule (MT) binding and ATPase activity. KCBP bound MTs in an ATP-dependent manner and exhibited MT-stimulated ATPase activity. Ca2+/ calmodulin inhibited binding of KCBP to MTs under conditions that normally favor tight motor-MT interactions, and the extent of inhibition was dependent on the concentration of calcium and calmodulin. Ca2+/calmodulin did not affect KCBP's basal ATPase activity, but reduced the motor's MT-stimulated ATPase activity. The substantial reduction in affinity of KCBP for MTs in the presence of Ca2+/calmodulin suggests that Ca2+/calmodulin may modulate the activity of KCBP in vivo by regulating the motor's association with MTs. KCBP is the first MT-dependent motor protein found to be regulated by direct binding of Ca2+/calmodulin to its motor subunit.

Aislamiento y caracterización de proteínas de unión a calmodulina en el Plasmodium falciparum

Se detectaron en el citoplasma de P. falciparum, por Cromatografía de afinidad a calmodulina-agarosa en presencia de 0.2 mM calcio, nueve proteínas de unión a calmodulina de 135.0, 81.5, 66.0, 58.6, 45.0, 41.0, 36.5, 30.0 y 24.5 kDa que fueron eluidas con 1mM EGTA. Las mismas proteínas fueron identificadas independientemente por prueba de immunocoprecipitación de un extracto del parásito marcado con superíndice 35S-Met, usando calmodulina bovina y un anticuerpo monoclonal contra ésta. Cuando las nueve proteínas fueron sometidas a SDS-PAGE y transferidas a membrana de PVDF, ocho de ellas mantuvieron la habilidad de unirse a calmodulina biotinilada. Las proteínas fueron aisladas por Cromatografía de afindad, seguida por electroforesis preparativa e inoculadas en ratones Balb-C para producir anticuerpos monoclonales con los que se estudió su localización por Inmunofluorescencia e Inmunomicroscopia electrónica en los diferentes estadios del parásito. Igualmente se detectaron por inmunocoprecipitación dos bandas con peso mol superior a 205.0 kDa con capacidad de unión a un anticuerpo anti-espectrina. Una de las proteínas de unión a CaM (36.500) fue aislada y sometida a ruptura enzimática con tripsina, diseñandose a partir del extremo N-terminal de los fragmentos obtenidos, oligonucleótidos degenerados con los que se hizo amplificación del genoma del parásito por PCR, lográndose aislar un fragmento de 554 pb, que presentó una alta homología con la glutamato sintasa, proteína altamente relacionada con cloroplastos de algas y plantas, planteándose la probable importancia que esta proteína tiene tanto en la historia evolutiva de los aplicomplexas, como en el diseño de fármacos que permitan nuevas alternativas para elcontrol de las enfermedades ocasionadas por éste grupo de organismos