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Mitochondrial DNA sequence divergence in theMelanogaster and oriental species subgroups ofDrosophila (1991)

Nigro, Loredana ; Solignac, Michel ; Sharp, Paul M.

Springer

Journal of molecular evolution 33 (1991), S. 156-162

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ISSN: 1432-1432

Keywords: Drosophila ; Mitochondrial DNA ; Nucleotide sequence ; Nonsynonymous substitutions ; Phylogeny ; A+T content

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The nucleotide sequence of a segment of the mitochondrial DNA from threeDrosophila species (D. erecta, D. eugracilis, andD. takahashii), belonging to different subgroups of themelanogaster group has been determined. The segment encompasses three complete tRNA genes (tRNAtrp, tRNAcys, and tRNAtyr) and portions of two protein-coding genes: the subunit 2 of the NADH dehydrogenase (ND2) and the subunit 1 of the cytochrome oxidase (COI). Comparisons also involve homologous sequences already known for four otherDrosophila species of themelanogaster group. Length differences were confined in the intergenic region where a long stretch of AT repeats was observed in one of the species analyzed. The three tRNA genes exhibit very different evolutionary rates, the most slowly evolving one, tRNAtyr, is adjacent to the 5′ end of COI; tRNAs in similar positions have been previously shown to evolve slowly because they are probably involved in transcript processing. Although the rate of synonymous substitutions was very similar between ND2 and COI genes there were strong discrepancies between them in terms of the number of nonsynonymous substitutions. Differences have also been found in G+C content of the genes, which are likely to be linked to different selective pressures. There is a reduction in G+C content in the region where selective constraints are reduced. This suggests the existence of different levels of constraints along the sequenced segment. An overall analysis of the types of substitutions showed a decrease in A+T content during the course of evolution of the species.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02193630

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Developmental regulatory elements in the 5′ flanking DNA of the Drosophila choline acetyltransferase gene (1993)

Kitamoto, Toshihiro ; Salvaterra, Paul M.

Springer

Development genes and evolution 202 (1993), S. 159-169

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ISSN: 1432-041X

Keywords: Drosophila ; Choline acetyltransferase ; cis-Regulatory element ; lacZ reporter gene ; Colinergic neuron

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Choline acetyltransferase (ChAT, EC 2.3.1.6) catalyzes the production of the neurotransmitter acetylcholine, and is an essential factor for neurons to be cholinergic. We have analyzed regulation of the Drosophila ChAT gene during development by examining the β-galactosidase expression pattern in transformed lines carrying different lengths of 5′ flanking DNA fused to a lacZ reporter gene. The largest fragment tested, 7.4 kb, resulted in the most extensive expression pattern in embryonic and larval nervous system and likely reflects all the cis-regulatory elements necessary for ChAT expression. We also found that 5′ flanking DNA located between 3.3 kb and 1.2 kb is essential for the reporter gene expression in most of the segmentally arranged embryonic sensory neurons as well as other distinct cells in the CNS. The existence of negative regulatory elements was suggested by the observation that differentiating photoreceptor cells in eye imaginal discs showed the reporter gene expression in several 1.2 kb and 3.3 kb transformants but not in 7.4 kb transformants. Furthermore, we have fused the 5′ flanking DNA fragments to a wild type ChAT cDNA and used these constructs to transform Drosophila with a Cha mutant background. Surprisingly, even though different amounts of 5′ flanking DNA resulted in different spatial expression patterns, all of the positively expressing cDNA transformed lines were rescued from lethality. Our results suggest that developmental expression of the ChAT gene is regulated both positively and negatively by the combined action of several elements located in the 7.4 kb upstream region, and that the more distal 5′ flanking DNA is not necessary for embryonic survival and development to adult flies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00365306

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Developmental expression of choline acetyltransferase mRNA inDrosophila (1990)

Carbini, Luis A. ; Muñoz Maines, Victor J. ; Salvaterra, Paul M.

Springer

Neurochemical research 15 (1990), S. 1089-1096

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ISSN: 1573-6903

Keywords: Choline acetyltransferase ; development ; mRNA ; Drosophila

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We have measured the steady state levels of choline acetyltransferase (ChAT, EC 2.3.1.6) mRNA during different developmental stages ofDrosophila melanogaster using a ChAT specific cRNA probe. ChAT mRNA was first detected approximately 6–7 h after oviposition, increased until the 1st–2nd larval instar, decreased into early pupal stages and increased again during late pupation, reaching a maximum in adults. Northern analysis showed a major RNA band with a Mr of 4.7 kilobases and Western analysis also showed a single major 75 kD protein band at all developmental stages. Our results support the hypothesis that a major point of regulation of ChAT expression may be at the transcriptional level.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01101709

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Sulfhydryl modification ofE. coli cpn60 leads to loss of its ability to support refolding of rhodanese but not to form a binary complex (1992)

Mendoza, Jose A. ; Horowitz, Paul M.

Springer

The protein journal 11 (1992), S. 589-594

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ISSN: 1573-4943

Keywords: Chaperonins ; rhodanese ; folding ; chemical modification

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Differential chemical modification ofE. coli chaperonin 60 (cpn60) was achieved by using one of several sulfhydryl-directed reagents. For native cpn60, the three cysteines were accessible for reaction with N-ethylmaleimide (NEM), while only two of them are accessible to the larger reagent 4,4′-dipyridyl disulfide (4-PDS). However, no sulfhydryl groups were modified when the even larger reagents 5,5′-dithiobis-(2-nitrobenzoic acid) (DTNB) or 2-(4′-(iodoacetamido)anilino) naphthalene-6-sulfonic acid (IAANS), were employed, unless the chaperonin was unfolded. The cpn60 that had been covalently modified with NEM or IAANS, was not able to support the chaperonin-assisted refolding of the mitochondrial enzyme rhodanese, which also requires cpn10 and ATP hydrolysis. However, both modified forms of cpn60 were able to form binary complexes with rhodanese, as demonstrated by their ability to arrest the spontaneous refolding of the enzyme. That is, chemical modification with these sulfhydryl-directed reagents produced a species that was not prevented from interaction with partially folded rhodanese, but that was prevented from supporting a subsequent step(s) during the chaperonin-assisted refolding process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01024958

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Partially folded rhodanese or its N-terminal sequence can disrupt phospholipid vesicles (1993)

Mendoza, Jose A. ; Grant, Earl ; Horowitz, Paul M.

Springer

The protein journal 12 (1993), S. 65-69

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ISSN: 1573-4943

Keywords: Phospholipid vesicles ; rhodanese ; folding ; peptides ; leader sequence

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Rhodanese (thiosulfate cyanide sulfurtransferase; E.C. 2.8.1.1) is a mitochondrial enzyme that is unprocessed after import. We describein vitro experiments showing that partially folded rhodanese can interact with lipid bilayers. The interaction was monitored by measuring the ability of rhodanese to disrupt small unilamellar vesicles composed of phosphatidylserine and to release 6-carboxyfluorescein that was trapped in the liposomes. Partially folded rhodanese, derived by dilution of urea-unfolded enzyme, efficiently induced liposome leakage. Native rhodanese had no effect on liposome integrity. Liposome disruption progressively decreased as rhodanese was given the opportunity to refold or aggregate before introduction of the liposomes. A synthetic 23 amino acid peptide representing the N-terminal sequence of rhodanese was very efficient at disrupting the liposomes. Shorter peptides chosen from within this sequence (residues 11–23 or residues 1–17) had no effect on liposome disruption. A peptide representing the tether region that connects the domains of the enzyme was also without effect. These results are consistent with the hypothesis that the N-terminal sequence of rhodanese is an uncleaved leader sequence, and can interact with membrane components that are involved in the mitochondrial uptake of this protein.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01024916

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The chaperonin assisted and unassisted refolding of rhodanese can be modulated by its N-terminal peptide (1994)

Mendoza, Jose A. ; Horowitz, Paul M.

Springer

The protein journal 13 (1994), S. 15-22

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ISSN: 1573-4943

Keywords: Chaperonins ; rhodanese ; folding ; peptide

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Thein vitro refolding of the monomeric, mitochondrial enzyme rhodanese (thiosulfate: cyanide sulfurtransferase, EC 2.8.1.1), which is assisted by theE. coli chaperonins, is modulated by the 23 amino acid peptide (VHQVLYRALVSTKWLAESVRAGK) corresponding to the amino terminal sequence (1–23) of rhodanese. In the absence of the peptide, a maximum recovery of active enzyme of about 65% is achieved after 90 min of initiation of the chaperonin assisted folding reaction. In contrast, this process is substantially inhibited in the presence of the peptide. The maximum recovery of active enzyme is peptide concentration-dependent. The peptide, however, does not prevent the interaction of rhodanese with the chaperonin 60 (cpn60), which leads to the formation of the cpn60-rhodanese complex. In addition, the peptide does not affect the rate of recovery of active enzyme, although it does affect the extent of recovery. Further, the unassisted refolding of rhodanese is also inhibited by the peptide. Thus, the peptide interferes with the folding of rhodanese in either the chaperonin assisted or the unassisted refolding of the enzyme. A 13 amino acid peptide (STKWLAESVRAGK) corresponding to the amino terminal sequence (11–23) of rhodanese does not show any significant effect on the chaperonin assisted or unassisted refolding of the enzyme. The results suggest that other sequences of rhodanese, in addition to the N-terminus, may be required for the binding of cpn60, in accord with a model in which cpn60 interacts with polypeptides through multiple binding sites.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01891988

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