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1.
Baulcombe DC Huttly AK Martienssen RA Barker RF Jarvis MG 《Molecular & general genetics : MGG》1987,209(1):33-40
Summary A genomic clone of a wheat -amylase gene (Amy3/33) was identified, on the basis of hybridisation properties, as different from -Amy1 and -Amy2 genes which had been characterised previously. The nucleotide sequence revealed that this gene has the normal sequence motifs of an active gene and an open reading frame interrupted by two introns. The protein sequence encoded by this open reading frame is recognisably similar to that of -amylase from the -Amy1 and -Amy2 genes and there is high sequence homology in all three proteins at the putative active sites and Ca++ binding region. In addition, the introns are at positions equivalent to the position of introns in the -Amy1 and -Amy2 genes. However, the sequence was less similar to -Amy1 and -Amy2 than these are to each other. Southern blot analysis showed that the Amy3/33 DNA is one of a small multigene family carried on a different chromosome (group 5) from either the -Amy1 or -Amy2 genes. A further difference from the -Amy1 and -Amy2 genes was the pattern of expression. Amy3/33 was expressed only in immature grains and, unlike the -Amy1 and -Amy2 genes, not at all in germinating aleurones. These data suggested therefore that this gene represents a third type of -amylase gene, not described before, which shares a common evolutionary ancestor with the -Amy1 and -Amy2 genes. 相似文献
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Ferritin, a protein widespread in nature, concentrates iron ∼1011–1012-fold above the solubility within a spherical shell of 24 subunits; it derives in plants and animals from a common ancestor
(based on sequence) but displays a cytoplasmic location in animals compared to the plastid in contemporary plants. Ferritin
gene regulation in plants and animals is altered by development, hormones, and excess iron; iron signals target DNA in plants
but mRNA in animals. Evolution has thus conserved the two end points of ferritin gene expression, the physiological signals
and the protein structure, while allowing some divergence of the genetic mechanisms. Comparison of ferritin gene organization
in plants and animals, made possible by the cloning of a dicot (soybean) ferritin gene presented here and the recent cloning
of two monocot (maize) ferritin genes, shows evolutionary divergence in ferritin gene organization between plants and animals
but conservation among plants or among animals; divergence in the genetic mechanism for iron regulation is reflected by the
absence in all three plant genes of the IRE, a highly conserved, noncoding sequence in vertebrate animal ferritin mRNA. In
plant ferritin genes, the number of introns (n= 7) is higher than in animals (n= 3). Second, no intron positions are conserved when ferritin genes of plants and animals are compared, although all ferritin
gene introns are in the coding region; within kingdoms, the intron positions in ferritin genes are conserved. Finally, secondary
protein structure has no apparent relationship to intron/exon boundaries in plant ferritin genes, whereas in animal ferritin
genes the correspondence is high. The structural differences in introns/exons among phylogenetically related ferritin coding
sequences and the high conservation of the gene structure within plant or animal kingdoms suggest that kingdom-specific functional
constraints may exist to maintain a particular intron/exon pattern within ferritin genes. In the case of plants, where ferritin
gene intron placement is unrelated to triplet codons or protein structure, and where ferritin is targeted to the plastid,
the selection pressure on gene organization may relate to RNA function and plastid/nuclear signaling.
Received: 25 July 1995 / Accepted: 3 October 1995 相似文献
4.
Jan Kwiatowski Douglas Skarecky Kevin Bailey Francisco J. Ayala 《Journal of molecular evolution》1994,38(5):443-454
The phylogeny and taxonomy of the drosophilids have been the subject of extensive investigations. Recently, Grimaldi (1990)
has challenged some common conceptions, and several sets of molecular data have provided information not always compatible
with other taxonomic knowledge or consistent with each other. We present the coding nucleotide sequence of the Cu,Zn superoxide
dismutase gene (Sod) for 15 species, which include the medfly Ceratitis capitata (family Tephritidae), the genera Chymomyza and Zaprionus, and representatives of the subgenera Dorsilopha, Drosophila, Hirtodrosophila, Scaptodrosophila, and Sophophora. Phylogenetic analysis of the Sod sequences indicates that Scaptodrosophila and Chymomyza branched off the main lineage before the major Drosophila radiations. The presence of a second intron in Chymomyza and Scaptodrosophila (as well as in the medfly) confirms the early divergence of these two taxa. This second intron became deleted from the main
lineage before the major Drosophila radiations. According to the Sod sequences, Sophophora (including the melanogaster, obscura, saltans, and willistoni species groups) is older than the subgenus Drosophila; a deep branch splits the willistoni and saltans groups from the melanogaster and obscura groups. The genus Zaprionus and the subgenera Dorsilopha and Hirtodrosophila appear as branches of a prolific “bush” that also embraces the numerous species of the subgenus Drosophila. The Sod results corroborate in many, but not all, respects Throckmorton's (King, R.C. (ed) Handbook of Genetics. Plenum Press, New York, pp. 421–469, 1975) phylogeny; are inconsistent in some important ways with Grimaldi's (Bull. Am. Museum Nat. Hist.
197:1–139, 1990) cladistic analysis; and also are inconsistent with some inferences based on mitochondrial DNA data. The Sod results manifest how, in addition to the information derived from nucleotide sequences, structural features (i.e., the deletion
of an intron) can help resolve phylogenetic issues.
Correspondence requests to: F. J. Ayala 相似文献
5.
Desmond C. Raitt Rosemary E. Bradshaw Tim M. Pillar 《Molecular & general genetics : MGG》1994,242(1):17-22
The cytochrome c gene (cycA) of the filamentous fungus Aspergillus nidulans has been isolated and sequenced. The gene is present in a single copy per haploid genome and encodes a polypeptide of 112 amino acid residues. The nucleotide sequence of the A. nidulans cycA gene shows 87% identity to the DNA sequence of the Neurospora crassa cytochrome c gene, and approximately 72% identity to the sequence of the Saccharomyces cerevisiae iso-1-cytochrome c gene (CYC1). The S. cerevisiae CYC1 gene was used as a heterologous probe to isolate the homologous gene in A. nidulans. The A. nidulans cytochrome c sequence contains two small introns. One of these is highly conserved in terms of position, but the other has not been reported in any of the cytochrome c genes so far sequenced. Expression of the cycA gene is not affected by glucose repression, but has been shown to be induced approximatly tenfold in the presence of oxygen and three- to fourfold under heatshock conditions. 相似文献
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L. Nussaume K. Harrison V. Klimyuk R. Martienssen V. Sundaresan J. D. G. Jones 《Molecular & general genetics : MGG》1995,249(1):91-101
Gene trap vectors have been used in insertional mutagenesis in animal systems to clone genes with interesting patterns of expression. These vectors are designed to allow the expression of a reporter gene when the vector inserts into a transcribed region. In this paper we examine alternative splicing events that result in the expression of a GUS reporter gene carried on a Ds element which has been designed as a gene trap vector for plants. We have developed a rapid and reliable method based on PCR to study such events. Many splice donor sites were observed in the 3 Ac border. The relative frequency of utilisation of certain splice donor and acceptor sites differed between tobacco and Arabidopsis. A higher stringency of splicing was observed in Arabidopsis. 相似文献
10.
Marc Pauly Isabelle Kayser Martine Schmitz Fernand Ries François Hentges Mario Dicato 《Journal of molecular evolution》1995,41(6):974-978
The mdr1 gene, first member of the human multidrug-resistance gene family, is a major gene involved in cellular resistance to several drugs used in anticancer chemotherapy. Its product, the drug-excreting P-glycoprotein, shows a bipartite structure formed by two similar adjacent halves. According to one hypothesis, the fusion of two related ancestral genes during evolution could have resulted in this structure. The DNA sequence analysis of the introns located in the region connecting the two halves of the human mdr1 gene revealed a highly conserved poly(CA) · poly (TG) sequence in intron 15 and repeated sequences of the Alu family in introns 14 and 17. These repeated sequences most likely represent molecular fossils of ancient DNA elements which were involved in such a recombination event.
Correspondence to: M. Pauly 相似文献