Avinoam Kaftory scite author profile

We have analyzed reticulocyte and leukocyte mRNAs isolated from a patient with congenital methemoglobinemia and pseudohermaphrodism. The cytochrome b5 cDNA sequences were amplified using specific oligonucleotide primers and the polymerase chain reaction (PCR). DNA sequencing indicated that there was a 16-bp deletion in the cDNA leading to a new, in-frame stop signal and resulting in a truncated protein of 45 amino acids. Genomic DNA was analyzed, and the molecular lesion was shown to be an AG-->GG alteration in the 3' splicing junction of intron 1. The splice site alteration leads to the usage of the nearest AG as an alternative splice site, resulting in a 16-bp deletion in the mRNA. All of the studies on reticulocyte mRNA and genomic DNA indicated that the patient was homozygous for the lesion.

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Highly efficient copying of single-stranded DNA by eukaryotic cell chromatin

Kaftory

Fry

1978

Nucl Acids Res

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Chromatin prepared from S phase hepatoma tissue culture (HTC) cell incorporates in vitro about 11-14 pmoles [3H]dTMP into DNA in 30 min. Single-stranded DNA added to this chromatin stimulates DNA synthesis more than 40-fold whereas activated DNA enhances it about 60-fold. By contrast, stimulation of DNA synthesis by activated DNA in a crude nuclear extract exceeds the stimulation exerted by denatured DNA by a factor of 7. Stimulation of DNA synthesis by denatured DNA is not due to stabilization of either the chromatin or the product of the endogenous reaction. On the other hand, we find that poly(dC) and poly (dT) enhance DNA synthesis by serving as templates which are copied by chromatin in a true complementary fashion. It seems therefore, that eukaryotic cell chromatin is able to copy single-stranded DNA at a high efficiency. Chromatin of G1 arrested cell copies exogenous templates at a considerably reduced rate. The enzyme responsible for the copying of denatured DNA is tentatively identified as DNA polymerase alpha on the basis of its sensitivity to sulfhydril group blocking, its requirements for ions and failure to copy the ribo strand of oligo(dT) poly(A).

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Replicative activity of isolated chromatin from proliferating and quiescent early passage and aging cultured mouse cells

Weisman-Shomer¹,

Kaftory²,

Fry³

1979

Journal Cellular Physiology

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Replicative activity of isolated chromatin from late passage cultured mouse cells has been compared to the activities of chromatin preparaions from dividing and quiescent early passage cells. Rates of endogenous DNA synthesis are similar for chromatin from growing or resting cells but this activity is stimulated 2.5-fold in senescent cell chromatin. Chromatin from growing young cells copies exogenously added single stranded DNA at the highest efficiency. Chromatin of senescent cells copies this template at a lower rate and resting young cell chromatin replicates single stranded DNA at the lowest efficiency. Similar relative rates are obtained when activated DNA is copied by the various chromatin preparations. Total activity of DNA polymerase extracted by salt from chromatin is similar for dividing and quiescent young cells but the proportion of DNA polymerase beta is higher in the latter. Elevated activities of DNA polymerases are extracted from chromatin of old cells. It is concluded, therefore, that chromatin-directed replication is differently arrested in non-dividing senescent cells and in quiescent early passage cells. The possible regulatory mechanisms of DNA replication in quiescence and aging are discussed.

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Protein turnover in senescent cultured chick embryo fibroblasts

Kaftory

Hershko

Fry

1978

Journal Cellular Physiology

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The over-all rates of protein synthesis, degradation and net accumulation were estimated in rapidly growing young and slowly doubling old cultures of chick fibroblasts. We find that not only the rate of protein synthesis is reduced in senescent cultures, but the average rate of protein degradation is also slowed down considerably. This decrease in the rate of protein breakdown in aging cells stands in contrast with the previously observed acceleration of this process by other conditions (such as serum deprivation or overcrowding) that lead to the cessation of cellular growth. Though the retarded protein degradation may contribute to the acculation of abnormal proteins in senescent cells we find that the breakdown of grossly abnormal puromycin peptides proceeds equally rapidly in young and old cultures. The protein content of senescent cells increases by 1.8-fold as compared to young cells, while the average cell volume is increased even more (almost 5-fold). By contrast, consideration of the over-all balance of protein metabolism in these cells indicates that the average concentration of metabolically turning-over proteins is somewhat higher in senescent than in young fibroblasts.

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Avinoam Kaftory

Congenital Methemoglobinemia with a Deficiency of Cytochrome B5

A splicing mutation in the cytochrome b5 gene from a patient with congenital methemoglobinemia and pseudohermaphrodism

Highly efficient copying of single-stranded DNA by eukaryotic cell chromatin

Replicative activity of isolated chromatin from proliferating and quiescent early passage and aging cultured mouse cells

Protein turnover in senescent cultured chick embryo fibroblasts

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