Rosa Adroer scite author profile

Protamine P1 genes have been sequenced following PCR amplification from 11 mammals representing five major mammalian orders: Rodentia (rat and guinea pig), Carnivora (cat and bear), Proboscidea (elephant), Perissodactyla (horse), and Artiodactyla (camel, deer, elk, moose, and gazelle). The predicted amino acid sequence for these genes together with previously reported sequences results in a data set of 25 different P1 genes and 30 different P1 amino acid sequences. The alignment of all these sequences reveals that protamines are amongst the most rapidly diverging proteins studied. In spite of the large number of differences there are conserved motifs that are also common to birds such as the N-terminal ARYR followed by the triple alternating SRSRSR phosphorylation site. The central region contains 3 arginine clusters consisting of 5-6 arginines each. The C-terminus appears to be the most variable region of the protamines. Overall the molecular evolution of P1 genes is in agreement with the expected species evolution supporting that these genes have evolved vertically.

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Evolution of protamine P1 genes in primates

Retief

Winkfein

Dixon

et al. 1993

J Mol Evol

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Protamine P1 genes have been sequenced by PCR amplification and direct DNA sequencing from 9 primates representing 5 major families, Cebidae (new world monkeys), Cercopithecidae (old world monkeys), Hylobatidae (gibbons), Pongidae (gorilla, orangutan, and chimpanzee), and Hominidae (human). In this recently diverged group of primates these genes are clearly orthologous but very variable, both at the DNA level and in their expressed amino acid sequences. The rate of variation amongst the protamine P1s indicates that they are amongst the most rapidly diverging polypeptides studied. However, some regions are conserved both in primates and generally in other placental mammals. These are the 13 N-terminal residues (including a region of alternating serine and arginine residues (the motif SRSR, res. 10-13) susceptible to Ser phosphorylation), a tract of six Arg residues (res. 24-29) in the center of the molecule, and a six-residue region (RCCRRR, res. 39-44), consisting of a pair of cysteines flanked by arginines. Detailed consideration of nearest-neighbor matrices and trees based on maximum parsimony indicates that P1 genes from humans, gorillas, and chimpanzees are very similar. The amino acid and nucleotide differences between humans and gorillas are fewer than those between humans and chimpanzees. This finding is at variance with data from DNA-DNA hybridization and extensive globin and mitochondrial DNA sequences which place human and chimpanzee as closest relatives in the super family, Hominoidea. This may be related to the fact that protamine P1s are expressed in germ line rather than somatic cells.(ABSTRACT TRUNCATED AT 250 WORDS)

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Calcium precipitation in acute and chronic brain diseases

Ramonet

Pugliese

Rodrı́guez

et al. 2002

Journal of Physiology-Paris

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High apolipoprotein E ε4 allele frequency in Age‐related memory decline

Blesa

Adroer

Santacruz

et al. 1996

Annals of Neurology

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Many studies have demonstrated a strong association between the presence of one or two epsilon 4 alleles and Alzheimer's disease (AD), although few data are available on the apolipoprotein E (APOE) epsilon 4 frequencies at the preclinical stages of AD. Thus, with a view to determining whether APOE genotyping could be useful in the early detection of AD, we determined the Apoe allele frequencies in patients with memory complaints without dementia (age-related memory decline, ARMD). We found an APOE epsilon 4 allele frequency of 0.315 in the ARMD group, similar to 0.293 in the AD group, in contrast to 0.057 in the control group. Significant differences (t=-2.91, df=25, p=0.008) were found between the Alzheimer's Disease Assessment Scale (ADAS) total scores in the ARMD patients with at least one epsilon 4 allele (mean=24.2) compared with the ARMD patients without the epsilon 4 allele (mean=14.7). Our results suggest that the patients with memory complaints, a high ADAS score, and the presence of one or two APOE-4 alleles could be at high risk for developing AD. Thus, we propose that genotyping in conjunction with the ADAS scale may prove useful as diagnostic markers of AD in the presymptomatic stages.

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Rosa Adroer

Evolution of protamine P1 genes in mammals

Evolution of protamine P1 genes in primates

Calcium precipitation in acute and chronic brain diseases

High apolipoprotein E ε4 allele frequency in Age‐related memory decline

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