EC:4.1.2.13 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.1.2.13 (aldolase)
3,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Developmental enzyme alterations were investigated in skeletal muscle of the hereditary progressive muscular dystrophy (PMD) mice of C57BL/6J strain. 2. Enzymes examined were classified into three groups according to changes of activities in dystrophy muscle during ageing. Activities of creatine kinase (EC 2.7.3.2), pyruvate kinase (EC 2.7.1.40), glycogen phosphorylase (EC 2.4.1.1), and fructose-biphosphate aldolase (EC 4.1.2.13), each of which had the respective muscle specific isoenzyme of extremely high activity in normal adult skeletal muscle, decreased rapidly in dystrophy muscle from the early stage of the disease with ageing. Activities of glycogen synthase (EC 2.4.1.11) and hexokinase (EC 2.7.1.1) were higher in dystrophy muscle in the early stage but decreased gradually to lower levels than those in the control with ageing. Activities of glucose-6-phosphate dehydrogenase (EC 1.1.1.49) were always much higher in dystrophy muscle than in the control, with no relation to ageing. 3. Isoenzymes of creatine kinase, pyruvate kinase and phosphorylase in dystrophy muscle were mainly the muscle types, indicating that muscle differentiation was not blocked profoundly even in dystrophy muscle. In limited cases, especially in the early stage of the disease, very weak activities of the non-muscle fetal type isoenzymes of creatine kinase and phosphorylase were detected, apparently associated with partial muscle regeneration in dystrophy muscle.
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PMID:Enzyme alteration in skeletal muscle of mice with muscular dystrophy. 41 23

Nearly full-length cDNA clones for muscle-type and non-muscle-type aldolase mRNAs were cloned from lambda gt10 cDNA libraries constructed from skeletal muscle and liver mRNAs of lamprey (Entosphenus japonicus). The cDNA-M8 has 2,240 bp carrying an open reading frame of 1,089 bp which encodes 362 amino acids without the amino terminal methionine, while the cDNA-L3 is 1,761 bp in length and has an open reading frame of 1,092 bp, which encodes 363 amino acids without the methionine. We designated the cDNA clones M8 and L3 as the muscle-type and non-muscle-type aldolase cDNAs, respectively. The entire amino acid sequences deduced from cDNA-M8 and -L3 show a high degree of identity to one another (76%) and also to vertebrate aldolases A (74-76%), B (68-70%), and C (71-76%) and Drosophila melanogaster aldolases alpha, beta, and gamma (66-67%). Northern blot analyses using the 3'-noncoding sequences of cDNA-M8 and -L3 as hybridization probes indicated that the muscle-type mRNA is expressed mainly in the skeletal muscle, heart muscle, brain, and some other tissues, but probably not in liver, while the non-muscle-type mRNA is expressed mainly in the liver and also in brain and other tissues, except for the heart muscle. Phylogenetic analyses showed that both muscle-type and non-muscle-type aldolases of lamprey resemble one another and might share a common ancestor with vertebrate aldolases A and C, but they are not direct ancestors of vertebrate aldolases.
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PMID:Structures of cDNAs encoding the muscle-type and non-muscle-type isozymes of lamprey fructose bisphosphate aldolases and the evolution of aldolase genes. 762 20

The results of various biochemical examinations in 14 patients with cirrhosis (6 males and 8 females) with muscle atrophy at the thenar and hypothenar eminence (muscle atrophy group; mAG) were compared with those in 13 patients (8 males and 5 females) with cirrhosis without muscle atrophy at these sites (non-muscle atrophy group; NmAG). All patients were elderly men and women (mAG and NmAG, mean age, 69 +/- 3 years and 60 +/- 7, respectively). In most mAG patients, muscle atrophy was accompanied by palmar erythema. Muscle atrophy was histologically demonstrated by biopsy. Furthermore, electromyography and magnetic resonance study of the cervical spinal cord revealed that the atrophy was of myogenic rather than neurogenic origin. The Child-Pugh score, body mass index and sex hormone level in urine (total 24 h) in the two groups were compared along with the biochemical results. There were no significant differences between the two groups in urine estrogen and testosterone levels. The urinary creatinine excretion was significantly reduced in mAG. The creatine phosphokinese, lactate dehydrogenase isoenzyme and aldolase levels in serum did not differ significantly in the two groups, whereas the serum albumin level was significantly increased in NmAG. Significant differences were observed only for the serum albumin level, age and body mass index. Thus, we consider that palmar muscle atrophy in patients with cirrhosis is not due to hormonal excess in serum, but may be attributable to advanced age and diminished physical strength.
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PMID:Biochemical and clinical study of muscle atrophy at thenar and hypothenar eminences in patients with cirrhosis. 886 73

To study evolutionary aspects of fructose-1,6-bisphosphate (Fru-1,6-P2) aldolase during deuterostomian evolution, we have purified and characterized aldolases from the muscle and liver of lamprey (Entosphenus japonicus). Aldolase from the skeletal muscle and liver was identified to be the muscle-type isozyme and the non-muscle-type isozyme that was encoded by cDNAs M8 and L3, respectively, as described previously (Zhang, R., Yatsuki, H., Kusakabe, T., Iwabe, Miyata, T., Imai, T., Yoshida, M., and Hori, K., J. Biochem. 117, 545-553, 1995). The muscle-type isozyme has properties similar to vertebrate aldolase A, while the non-muscle-type isozyme shows a similarity to bacterial class I aldolase and vertebrate aldolase C but not to aldolase B, the liver-type aldolase, in terms of kinetic parameters: the Kcat values toward Fru-1,6-P2 and Fru-1-P, the Fru-1,6-P2/Fru-1-P activity ratio, and the Km values toward these substrates. The two enzymes have tetrameric forms with a molecular mass of approximately 160,000 and have similar pH optimum. The muscle-type and non-muscle-type isozymes from the tissues show different electrophoretic mobility; the muscle-type isozyme moves much faster than the non-muscle-type isozyme toward anodic side. The recombinant muscle-type and non-muscle-type aldolases gave similar characteristics as those from the tissues. The results presented in this paper, together with the data presented in the previous paper, strongly suggest that in lamprey it is possible to have two types of aldolase isozymes rather than one or three isozymes.
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PMID:Lamprey fructose-1,6-bisphosphate aldolase: characterization of the muscle-type and non-muscle-type isozymes. 914 66