Christopher Gallo scite author profile

Abstract. Oocytes of Xenopus laevis undergo maturation when injected with an affinity-purified antibody against the COOH-terminal decapeptide of the et subunit of the G-protein Gs, an antibody that inhibits Gs activity. Germinal vesicle breakdown, chromosome condensation, and polar body formation occur, with a time course similar to that for oocytes treated with progesterone. The as antibody-injected oocytes also acquire the ability to be activated by sperm. Coinjection of the catalytic subunit of cAMP-dependent protein kinase, or incubation with cycloheximide, inhibits maturation in response to injection of the eq antibody; these experiments show that the as antibody acts at an early point in the pathway leading to oocyte maturation, before formation of maturation promoting factor, and like progesterone, its action requires protein synthesis. Immunogold electron microscopy shows that as is present in the yolk platelet membranes as well as the plasma membrane. These results support the hypothesis that progesterone acts by inhibiting oq, and suggest that the target of progesterone could include yolk platelet membranes as well as the plasma membrane.

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Oocyte maturation in starfish is mediated by the beta gamma-subunit complex of a G-protein.

Jaffe

Gallo

Lee

et al. 1993

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Abstract. The stimulation of meiotic maturation of starfish oocytes by the hormone 1-methyladenine is mimicked by injection of 8)' subunits of G-proteins from either retina or brain. Conversely, the hormone response is inhibited by injection of the GDP-bound forms of O/il or O/t subunits, or by injection of phosducin; all of these proteins should bind free/33'. t~-subunit forms with reduced affinity for 87 (O/il or O/t bound to hydrolysis-resistant GTP analogs, or t~irGMPPCP treated with trypsin to remove the amino terminus of the protein) are less effective inhibitors of 1-methyladenine action. These results indicate that the /33, subunit of a G-protein mediates 1-methyladenine stimulation of oocyte maturation.

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Structural and functional characteristics of virgin and fouled Protein A MabSelect resin cycled in a monoclonal antibody purification process

Zhang

Daniels

et al. 2015

Biotech & Bioengineering

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The structural and functional characteristics of the Protein A MabSelect resin are determined for a virgin sample and for samples removed from a column that had been operated in an antibody capture process which had shown losses in product recovery over fewer than 20 cycles. Compared to the virgin resin, the cycled samples show reduced porosity and apparent pore size based on inverse size exclusion chromatography while transmission electron microscopy (TEM) shows accumulation of foulants on the cycled resin. Adsorption isotherms, batch adsorption kinetics, and batch desorption kinetics, obtained using the antibody in purified form, show that the cycled samples have about 10% lower binding capacity and slower mass transfer. Confocal scanning laser microscopy shows, however, that different degrees of fouling exist for different beads in the cycled samples, which may correspond to the existence of areas exposed to minimal or no flow in the process column. Replacing the standard cleaning procedure with an improved multi-step cleaning protocol prevented the accumulation of foulants in the resin beads, as evident from TEM, and resulted in a stable operation with high recovery.

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Nature of foulants and fouling mechanism in the Protein A MabSelect resin cycled in a monoclonal antibody purification process

Zhang

Daniels

Salm

et al. 2015

Biotech & Bioengineering

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The composition and origin of foulants and their spatial distribution within the particles of the Protein A MabSelect resin cycled in a mAb purification process are determined using electron and confocal microscopy techniques with gold and fluorescently labeled protein probes that associate with the foulants. The results show that the foulants are primarily related to the mAb product, are heterogeneously dispersed both on the outer surface and in the interior of the resin beads, and accumulate only when loading the conditioned CHO cell culture supernatant. Insignificant accumulation is seen if the process is run with purified mAb or with the null cell culture supernatant. When bound to the Protein A ligand, the mAb responsible for the observed fouling behavior is shown to associate with BSA and α-lactalbumin. This property is exploited using labeled versions of these lipophilic proteins to assess the effectiveness of improved resin cleaning processes and to elucidate the fouling mechanism. Resin fouling for this mAb appears to be consistent with the occurrence of conformational changes that occur upon binding, which, in turn, facilitate association of lipophilic proteins with the mAb. Upon desorption at low pH, these destabilized mAb complexes are deposited on and within the resin growing with each cycle and eventually leading to significant degradation of process performance.

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Polyamines and HeLa-cell DNA replication

Gallo¹,

Koza²,

Herbst³

1986

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HeLa cells were synchronized for S-phase DNA synthesis by the double thymidine-block procedure. A comparison was made of the polyamine content and S-phase DNA synthesis in cells from control cultures and cultures to which an inhibitor of polyamine biosynthesis, alpha-difluoromethylornithine, was added to the synchronization medium. Control cells showed a peak of synchronous DNA synthesis at 3 h and a maximum concentration of polyamines at 6-9 h after release of the second thymidine block. Cells from cultures containing the inhibitor were severely inhibited in the synthesis of DNA and contained no putrescine and only traces of spermidine while the spermine content was lowered by as much as 80%. Supplementation of cultures containing alpha-difluoromethylornithine with a polyamine, at the time of release of the second thymidine block, replenished the intracellular pool of the administered polyamine and partially restored S-phase DNA synthesis, with a lag of 3-6 h. Almost complete restoration of DNA synthesis in cells depleted of polyamines was achieved by the addition of a polyamine to cultures at least 10 h before release of the second thymidine block. The lag in initiation of synchronous S-phase DNA synthesis was eliminated in these cells. It is concluded that reversal by polyamines of the deficiency in S-phase DNA synthesis, in polyamine-depleted HeLa cells, is a time-dependent process indicative of the necessity for the replenishment of replication factors or their organization into an active replication complex.

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