Your search keyword '"Acyl Carrier Protein genetics"' showing total 5 results

1. Thermotropic and barotropic phase transitions on diacylphosphatidylethanolamine bilayer membranes.

Author

Matsuki, Hitoshi, Endo, Shigeru, Sueyoshi, Ryosuke, Goto, Masaki, Tamai, Nobutake, and Kaneshina, Shoji

Subjects

*PHOSPHATIDYLETHANOLAMINES, *ACYL carrier protein genetics, *ACYL carrier protein, *CHOLESTEROL, *G proteins

Abstract

The bilayer phase transitions of four diacylphosphatidylethanolamines (PEs) with matched saturated acyl chains (C n = 12, 14, 16 and 18) and two PEs with matched unsaturated acyl chains containing a different kind of double bonds were observed by differential scanning calorimetry under atmospheric pressure and light-transmittance measurements under high pressure. The temperature-pressure phase diagrams for these PE bilayer membranes were constructed from the obtained phase-transition data. The saturated PE bilayer membranes underwent two different phase transitions related to the liquid crystalline (L α ) phase, the transition from the hydrated crystalline (L c ) phase and the chain melting (gel (L β ) to L α ) transition, depending on the thermal history. Pressure altered the gel-phase stability of the bilayer membranes of PEs with longer chains at a low pressure. Comparing the thermodynamic quantities of the saturated PE bilayer membranes with those of diacylphosphatidylcholine (PC) bilayer membranes, the PE bilayer membranes showed higher phase-transition temperatures and formed more stable L c phase, which originates from the strong interaction between polar head groups of PE molecules. On the other hand, the unsaturated PE bilayer membranes underwent the transition from the L α phase to the inverted hexagonal (H II ) phase at a high temperature and this transition showed a small transition enthalpy but high pressure-responsivity. It turned out that the kind of double bonds markedly affects both bilayer-bilayer and bilayer-nonbilayer transitions and the L α /H II transition is a volume driven transition for the reconstruction of molecular packing. Further, the phase-transition behavior was explained by chemical potential curves of bilayer phases. [ABSTRACT FROM AUTHOR]

Published

2017

2. Acylation of the Type 3 Secretion System Translocon Using a Dedicated Acyl Carrier Protein.

Author

Viala, Julie P. M., Prima, Valérie, Puppo, Rémy, Agrebi, Rym, Canestrari, Mickaël J., Lignon, Sabrina, Chauvin, Nicolas, Méresse, Stéphane, Mignot, Tâm, Lebrun, Régine, and Bouveret, Emmanuelle

Subjects

*PATHOGENIC microorganisms, *ACYL carrier protein genetics, *BIOLOGICAL transport, *CHEMICAL reactions, *SALMONELLA detection

Abstract

Bacterial pathogens often deliver effectors into host cells using type 3 secretion systems (T3SS) the extremity of which forms a translocon that perforates the host plasma membrane. The T3SS encoded by Salmonella pathogenicity island 1 (SPI-1) is genetically associated with an acyl carrier protein, IacP, whose role has remained enigmatic. In this study, using tandem affinity purification, we identify a direct protein-protein interaction between IacP and the translocon protein SipB. We show, by mass spectrometry and radiolabelling, that SipB is acylated, which provides evidence for a modification of the translocon that has not been described before. A unique and conserved cysteine residue of SipB is identified as crucial for this modification. Although acylation of SipB was not essential to virulence, we show that this posttranslational modification promoted SipB insertion into host-cell membranes and pore-forming activity linked to the SPI-1 T3SS. Cooccurrence of acyl carrier and translocon proteins in several γ- and β-proteobacteria suggests that acylation of the translocon is conserved in these other pathogenic bacteria. These results also indicate that acyl carrier proteins, known for their involvement in metabolic pathways, have also evolved as cofactors of new bacterial protein lipidation pathways. [ABSTRACT FROM AUTHOR]

Published

2017

3. Characterization of a stearoyl-acyl carrier protein desaturase gene from potential biofuel plant, Pongamia pinnata L.

Author

Ramesh, Aadi Moolam, Kesari, Vigya, and Rangan, Latha

Subjects

*ACYL carrier protein genetics, *DESATURASE genetics, *BIOMASS energy, *MILLETTIA pinnata, *ANTISENSE DNA, *MOLECULAR cloning

Abstract

Abstract: A new full length cDNA clone encoding stearoyl-ACP desaturase (SAD) was isolated from seeds of Pongamia pinnata, an oil yielding legume plant. The cDNA clone (PpSAD) contained a single open reading frame of 1182-bp coding for 393 amino acids with a predicted molecular mass of 45.04kDa, and shares similarity with SAD from other plants. Characteristics of the deduced protein were predicted and analyzed using molecular homology modeling; its three dimensional structure strongly resembled the crystal structure of Ricinus communis (RcSAD). Southern blot analysis indicated that ‘sad’ is a multiple copy gene and was a member of a small gene family. Expression analysis using quantitative real-time PCR revealed that the gene showed marked distinct expression during different stages of seed developments. The results of the expression analysis in this study, combined with existing research, suggest that ‘sad’ gene may be involved in the regulation of plant seed growth and development. [Copyright &y& Elsevier]

Published

2014

4. Cloning, characterization, and expression analysis of acyl–acyl carrier protein (ACP)-thioesterase B from seeds of Chinese Spicehush (Lindera communis).

Author

Dong, Shubin, Huang, Jiacong, Li, Yannan, Zhang, Jing, Lin, Shanzhi, and Zhang, Zhixiang

Subjects

*ACYL carrier protein genetics, *PLANT cloning, *GENE expression in plants, *LINDERA (Plants), *FATTY acid synthesis, *ACYL-CoA dehydrogenases, *OPEN reading frames (Genetics), *POLYMERASE chain reaction

Abstract

Abstract: Acyl–acyl carrier protein (ACP) thioesterases (TE EC 3.1.2.14) are fatty acid biosynthesis key enzymes that determine fatty acid carbon chain length in most plant tissues. A full-length cDNA corresponding to one of the fatty acyl–ACP thioesterase (Fat) genes, designated LcFatB, was isolated from developing Lindera communis seeds using PCR and RACE with degenerate primers based on conserved sequences of multiple TE gene sequences obtained from GenBank. The 1788 bp cDNA had an open reading frame (ORF) of 1260bp encoding a protein of 419 amino acids. The deduced amino acid sequence showed 61–73% identity to proteins in the FatB class of plant thioesterases. Real-time quantitative PCR analysis revealed that LcFatB was expressed in all tissues of L. communis, with the highest expression in the developing seeds 75days after flowering. Recombinant pET-MLcFatB was constructed using the pET-30a vector and transformed into Escherichia coli BL21(DE3)△FadE, a strain that deleted the acyl-CoA dehydrogenase (FadE). SDS-PAGE analysis of proteins isolated from pET-MLcFatB E. coli cells after induction with IPTG revealed a protein band at ~40.5kDa, corresponding to the predicted size of LcFatB mature protein. The decanoic acid and lauric acid contents of the pET-MLcFatB transformant were increased significantly. These findings suggest that an LcFatB gene from a non-traditional oil-seed tree could be used to function as a saturated acyl–ACP thioesterase and could potentially be used to modify the fatty acid composition of seed oil from L. communis or other species through transgenic approaches. [Copyright &y& Elsevier]

Published

2014

5. Effects of fatty acid activation on photosynthetic production of fatty acid-based biofuels in Synechocystis sp. PCC6803.

Subjects

*FATTY acid derivatives, *ACYL carrier protein genetics, *CHEMICAL reagents, *BIOMASS energy, *EXTRACTION (Chemistry), *FATTY alcohols, *GENETIC code, *SYNECHOCYSTIS, *BIOSYNTHESIS

Abstract

The article focuses on the research presented by Qianqian Gao and colleagues on the impact of fatty acid activation on photosynthetic production related to fatty acid-based biofuels in Synechocystis sp. PCC6803 mutant strains. It mentions that Synechocystis sp. PCC6803 encodes an acyl carrier protein (ACP) synthetase (AAS)). It offers information on alkane biosynthetic pathway in cyanobacteria with two enzymes including an acyl carrier protein (ACP) reductase (AAR) and an aldehyde decarbonylase (ADC).

Published

2012