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Journal articles on the topic 'Ltp12'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Spendier, Florian, Alexander Müller, Markus Korinek, and Peter Hofmann. "Intensity Thresholds and Maximal Lactate Steady State in Small Muscle Group Exercise." Sports 8, no. 6 (2020): 77. http://dx.doi.org/10.3390/sports8060077.

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The aim of our study is to determine the first (LTP1) and the second (LTP2) lactate turn points during an incremental bicep curl test and to verify these turn points by ventilatory turn points (VT1 and VT2) and constant-load exercise tests. Twelve subjects performed a one-arm incremental bicep curl exercise (IET) after a one repetition maximum (1RM) test to calculate the step rate for the incremental exercise (1RM/45). Workload was increased every min at a rate of 30 reps/min until maximum. To verify LTPs, VT1 and VT2 were determined from spirometric data, and 30 min constant-load tests (CL) w
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Fasching, Patrick, Stefan Rinnerhofer, Georg Wultsch, Philipp Birnbaumer, and Peter Hofmann. "The First Lactate Threshold Is a Limit for Heavy Occupational Work." Journal of Functional Morphology and Kinesiology 5, no. 3 (2020): 66. http://dx.doi.org/10.3390/jfmk5030066.

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Long-term heavy physical work often leads to early retirement and disability pension due to chronic overload, with a need to define upper limits. The aim of this study was to evaluate the value of the first lactate threshold (LTP1) as a physiological marker for heavy occupational work. A total of 188 male and 52 female workers performed an incremental cycle ergometer test to determine maximal exercise performance and the first and second lactate (LTP1; LTP2) and ventilatory thresholds (VT1; VT2). Heart rate (HR) recordings were obtained during one eight-hour shift (HR8h) and oxygen uptake was
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3

Jones, Berne L., and Laurie A. Marinac. "Barley LTP1 (PAPI) and LTP2: Inhibitors of Green Malt Cysteine Endoproteinases." Journal of the American Society of Brewing Chemists 53, no. 4 (1995): 194–95. http://dx.doi.org/10.1094/asbcj-53-0194.

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4

Lin, Chi-Hung, Li Li, Ping-Chiang Lyu, and Jui-Yoa Chang. "Distinct Unfolding and Refolding Pathways of Lipid Transfer Proteins LTP1 and LTP2." Protein Journal 23, no. 8 (2004): 553–66. http://dx.doi.org/10.1007/s10930-004-7882-2.

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5

Nieuwoudt, Melanie, Nicolaas Lombard, and Marina Rautenbach. "Optimised purification and characterisation of lipid transfer protein 1 (LTP1) and its lipid-bound isoform LTP1b from barley malt." Food Chemistry 157 (August 2014): 559–67. http://dx.doi.org/10.1016/j.foodchem.2014.02.076.

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6

Buhot, Nathalie, Eric Gomès, Marie-Louise Milat, et al. "Modulation of the Biological Activity of a Tobacco LTP1 by Lipid Complexation." Molecular Biology of the Cell 15, no. 11 (2004): 5047–52. http://dx.doi.org/10.1091/mbc.e04-07-0575.

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Plant lipid transfer proteins (LTPs) are small, cysteine-rich proteins secreted into the extracellular space. They belong to the pathogenesis-related proteins (PR-14) family and are believed to be involved in several physiological processes including plant disease resistance, although their precise biological function is still unknown. Here, we show that a recombinant tobacco LTP1 is able to load fatty acids and jasmonic acid. This LTP1 binds to specific plasma membrane sites, previously characterized as elicitin receptors, and is shown to be involved in the activation of plant defense. The bi
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7

Liu, Chengcheng, Kendall Stocke, Zackary R. Fitzsimonds, Lan Yakoumatos, Daniel P. Miller, and Richard J. Lamont. "A bacterial tyrosine phosphatase modulates cell proliferation through targeting RGCC." PLOS Pathogens 17, no. 5 (2021): e1009598. http://dx.doi.org/10.1371/journal.ppat.1009598.

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Tyrosine phosphatases are often weaponized by bacteria colonizing mucosal barriers to manipulate host cell signal transduction pathways. Porphyromonas gingivalis is a periodontal pathogen and emerging oncopathogen which interferes with gingival epithelial cell proliferation and migration, and induces a partial epithelial mesenchymal transition. P. gingivalis produces two tyrosine phosphatases, and we show here that the low molecular weight tyrosine phosphatase, Ltp1, is secreted within gingival epithelial cells and translocates to the nucleus. An ltp1 mutant of P. gingivalis showed a diminishe
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Wallner, Dietmar, Helmut Simi, Gerhard Tschakert, and Peter Hofmann. "Acute Physiological Response to Aerobic Short-Interval Training in Trained Runners." International Journal of Sports Physiology and Performance 9, no. 4 (2014): 661–66. http://dx.doi.org/10.1123/ijspp.2013-0385.

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Purpose:To analyze the acute physiological response to aerobic short-interval training (AESIT) at various high-intensity running speeds. A minor anaerobic glycolytic energy supply was aimed to mimic the characteristics of slow continuous runs.Methods:Eight trained male runners (maximal oxygen uptake [VO2max] 55.5 ± 3.3 mL · kg−1 · min−1) performed an incremental treadmill exercise test (increments: 0.75 km · h−1 · min−1). Two lactate turn points (LTP1, LTP2) were determined. Subsequently, 3 randomly assigned AESIT sessions with high-intensity running-speed intervals were performed at speeds cl
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9

Аманликова, Д. А., та Юлия Игоревна Ощепкова. "Влияние биологически активных веществ пептидной природы на течение экспериментального язвенного колита". Химико-фармацевтический журнал 55, № 7 (2021): 25–29. http://dx.doi.org/10.30906/0023-1134-2021-55-7-25-29.

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Из семян чернушки посевной комплексом хроматографических методов проведено выделение липид-переносящего белка Ns-LTP1 и проведено изучение его влияния на течение экспериментального язвенного колита на крысах. Получены результаты исследования влияния БАВ пептидной природы, относящихся к классу липид-переносящих белков, на течение экспериментального язвенного колита у крыс в сравнении с препаратом сульфасалазин. Установлено, что липид-переносящий белок Ns-LTP1 оказывает выраженное противоязвенное, противовоспалительное и жаропонижающее действие на модели острого экспериментального колита у крыс,
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10

Villalba, María S., and Héctor M. Alvarez. "Identification of a novel ATP-binding cassette transporter involved in long-chain fatty acid import and its role in triacylglycerol accumulation in Rhodococcus jostii RHA1." Microbiology 160, no. 7 (2014): 1523–32. http://dx.doi.org/10.1099/mic.0.078477-0.

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Members of the genus Rhodococcus are specialists in the biosynthesis and accumulation of triacylglycerols (TAGs). As no transport protein related to TAG metabolism has yet been characterized in these bacteria, we used the available genomic information of Rhodococcus jostii RHA1 to perform a broad survey of genes coding for putative lipid transporter proteins in this oleaginous micro-organism. Among the seven genes encoding putative lipid transporters, ro05645 (now called ltp1: lipid transporter protein) coding for an ATP-binding cassette protein was found clustered with others genes encoding e
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11

Draeger, Tracie, Azahara C. Martin, Abdul Kader Alabdullah, et al. "Dmc1 is a candidate for temperature tolerance during wheat meiosis." Theoretical and Applied Genetics 133, no. 3 (2019): 809–28. http://dx.doi.org/10.1007/s00122-019-03508-9.

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Abstract Key message The meiotic recombination gene Dmc1 on wheat chromosome 5D has been identified as a candidate for the maintenance of normal chromosome synapsis and crossover at low and possibly high temperatures. Abstract We initially assessed the effects of low temperature on meiotic chromosome synapsis and crossover formation in the hexaploid wheat (Triticum aestivum L.) variety ‘Chinese Spring’. At low temperatures, asynapsis and chromosome univalence have been observed before in Chinese Spring lines lacking the long arm of chromosome 5D (5DL), which led to the proposal that 5DL carrie
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12

Melnikova, Daria, Ivan Bogdanov, Tatiana Ovchinnikova, and Ekaterina Finkina. "Interaction between the Lentil Lipid Transfer Protein Lc-LTP2 and Its Novel Signal Ligand PI(4,5)P2." Membranes 10, no. 11 (2020): 357. http://dx.doi.org/10.3390/membranes10110357.

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It is known that plant lipid transfer proteins (LTPs) bind a broad spectrum of ligands including fatty acids (FAs), phospho- and glycolipids, acyl-coenzyme A and secondary metabolites. In this work, we used protein−lipid overlay assays to identify new putative LTP ligands. In our experiments, the lentil lipid transfer protein Lc-LTP2 as well as LTPs from other plants were shown to bind phosphatidylinositol (4,5)-bisphosphate (PI(4,5)P2). Molecular modeling, 2-p-toluidinonaphthalene-6-sulphonate (TNS) displacement and liposome leakage experiments with Lc-LTP2 and its mutant analogs (R45A, Y80A,
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13

Bogdanov, I. V., E. I. Finkina, S. V. Balandin, D. N. Melnikova, E. A. Stukacheva, and T. V. Ovchinnikova. "Structural and Functional Characterization of Recombinant Isoforms of the Lentil Lipid Transfer Protein." Acta Naturae 7, no. 3 (2015): 65–73. http://dx.doi.org/10.32607/20758251-2015-7-3-65-73.

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The recombinant isoforms Lc-LTP1 and Lc-LTP3 of the lentil lipid transfer protein were overexpressed in E. coli cells. It was confirmed that both proteins are stabilized by four disulfide bonds and characterized by a high proportion of the -helical structure. It was found that Lc-LTP1 and Lc-LTP3 possess antimicrobial activity and can bind fatty acids. Both isoforms have the ability to bind specific IgE from sera of patients with food allergies, which recognize similar epitopes of the major peach allergen Pru p 3. Both isoforms were shown to have immunological properties similar to those of ot
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14

Bard, Gabriela C. V., Gabriel B. Taveira, Thaynã A. M. Souza, et al. "Coffea canephora Peptides in Combinatorial Treatment with Fluconazole: Antimicrobial Activity against Phytopathogenic Fungus." International Journal of Microbiology 2018 (July 10, 2018): 1–10. http://dx.doi.org/10.1155/2018/8546470.

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The objective of the present study was to evaluate the antimicrobial activity of the Cc-LTP2 and Cc-GRP peptides isolated from Coffea canephora seeds and their possible synergistic activity with the azole drug fluconazole and characterize their mechanisms of action on cells of pathogenic fungi. Cc-LTP2 and Cc-GRP alone or in combination with 20 µg/mL of fluconazole were evaluated for their antimicrobial activity on the fungus Fusarium solani, and the effects of these peptides on the permeability of membranes and the induction of oxidative stress were determined. Our results show that these pep
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15

Seleznik, Gitta M., Theresia Reding, Lukas Peter, et al. "Development of autoimmune pancreatitis is independent of CDKN1A/p21-mediated pancreatic inflammation." Gut 67, no. 9 (2017): 1663–73. http://dx.doi.org/10.1136/gutjnl-2016-313458.

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ObjectiveChronic pancreatitis (CP) and autoimmune pancreatitis (AIP) are characterised by different inflammatory processes. If pancreatic inflammation is a prerequisite for autoimmunity is still unclear. AIP is considered mostly a T cell-mediated disease; however, in induction of CP, macrophages play a pivotal role. p21—a member of cyclin-dependent kinase inhibitors—can influence inflammatory processes, in particular can regulate T cell activation and promote macrophage development. We therefore examined the role of p21-mediated inflammation in AIP.DesignWe intercrossed lymphotoxin (LT) overex
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16

Morais, L., A. Queiroz, W. Viegas, A. Roca, and T. Naranjo. "Synaptonemal complex formation and metaphase I bond distribution at low temperatures in nullisomic 5D – tetrasomic 5B hexaploid wheat." Genome 35, no. 3 (1992): 498–502. http://dx.doi.org/10.1139/g92-073.

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Nullisomic 5D – tetrasomic 5B wheat plants were grown at 20 and 16 °C, and the level of paired and unpaired lateral elements in synaptonemal complex (SC) spreads was quantified in early-mid prophase I cells to ascertain the origin of the low frequency of metaphase I associations observed in plants held at 16 °C in the absence of the Ltp1 gene located on the long arm of chromosome 5D. The distribution of chromosome arm associations in metaphase I cells was studied using the C-banding technique. The results obtained confirm that asynapsis was the main cause of the reduction in the level of assoc
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17

Jégou, Sandrine, Jean-Paul Douliez, Daniel Mollé, Patrick Boivin, and Didier Marion. "Purification and Structural Characterization of LTP1 Polypeptides from Beer." Journal of Agricultural and Food Chemistry 48, no. 10 (2000): 5023–29. http://dx.doi.org/10.1021/jf000075m.

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18

Kim, Hyojin, Saet Buyl Lee, Hae Jin Kim, Myung Ki Min, Inhwan Hwang, and Mi Chung Suh. "Characterization of Glycosylphosphatidylinositol-Anchored Lipid Transfer Protein 2 (LTPG2) and Overlapping Function between LTPG/LTPG1 and LTPG2 in Cuticular Wax Export or Accumulation in Arabidopsis thaliana." Plant and Cell Physiology 53, no. 8 (2012): 1391–403. http://dx.doi.org/10.1093/pcp/pcs083.

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19

Zhao, Yani, and Marek Cieplak. "Structural Changes in Barley Protein LTP1 Isoforms at Air–Water Interfaces." Langmuir 33, no. 19 (2017): 4769–80. http://dx.doi.org/10.1021/acs.langmuir.7b00791.

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20

Lascombe, Marie-Bernard, Nathalie Buhot, Bénédicte Bakan, et al. "Crystallization of DIR1, a LTP2-like resistance signalling protein fromArabidopsis thaliana." Acta Crystallographica Section F Structural Biology and Crystallization Communications 62, no. 7 (2006): 702–4. http://dx.doi.org/10.1107/s1744309106023748.

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21

Skriver, Karen, Robert Leah, Frieder M�ller-Uri, Finn Lok Olsen, and John Mundy. "Structure and expression of the barley lipid transfer protein gene Ltp1." Plant Molecular Biology 18, no. 3 (1992): 585–89. http://dx.doi.org/10.1007/bf00040674.

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22

Canevascini, S., D. Caderas, T. Mandel, A. J. Fleming, I. Dupuis, and C. Kuhlemeier. "Tissue-Specific Expression and Promoter Analysis of the Tobacco ltp1 Gene." Plant Physiology 112, no. 2 (1996): 513–24. http://dx.doi.org/10.1104/pp.112.2.513.

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23

LI, Ai-li, Cheng-sheng MENG, Rong-hua ZHOU, Zhi-ying MA, and Ji-zeng JIA. "Assessment of Lipid Transfer Protein (LTP1) Gene in Wheat Powdery Mildew Resistance." Agricultural Sciences in China 5, no. 4 (2006): 241–49. http://dx.doi.org/10.1016/s1671-2927(06)60045-x.

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24

Krönung, Sonja K., Ulrike Beyer, Maria Luisa Chiaramonte, Diletta Dolfini, Roberto Mantovani, and Matthias Dobbelstein. "LTR12 promoter activation in a broad range of human tumor cells by HDAC inhibition." Oncotarget 7, no. 23 (2016): 33484–97. http://dx.doi.org/10.18632/oncotarget.9255.

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Douliez, Jean-Paul, Sandrine Jégou, Christine Pato, Colette Larré, Daniel Mollé, and Didier Marion. "Identification of a New Form of Lipid Transfer Protein (LTP1) in Wheat Seeds." Journal of Agricultural and Food Chemistry 49, no. 4 (2001): 1805–8. http://dx.doi.org/10.1021/jf001327m.

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Mikołajczak, Krzysztof, Piotr Ogrodowicz, Maria Surma, Tadeusz Adamski, and Anetta Kuczyńska. "Introgression of LTP2 gene through marker assisted backcross in barley ( Hordeum vulgare L.)." Electronic Journal of Biotechnology 24 (November 2016): 9–11. http://dx.doi.org/10.1016/j.ejbt.2016.09.003.

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27

Lindorff-Larsen, Kresten, and Jakob R. Winther. "Surprisingly high stability of barley lipid transfer protein, LTP1, towards denaturant, heat and proteases." FEBS Letters 488, no. 3 (2001): 145–48. http://dx.doi.org/10.1016/s0014-5793(00)02424-8.

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28

Jégou, Sandrine, Jean-Paul Douliez, Daniel Mollé, Patrick Boivin, and Didier Marion. "Evidence of the Glycation and Denaturation of LTP1 during the Malting and Brewing Process." Journal of Agricultural and Food Chemistry 49, no. 10 (2001): 4942–49. http://dx.doi.org/10.1021/jf010487a.

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29

Douliez, Jean-Paul, Denise Sy, Françoise Vovelle, and Didier Marion. "Interaction of Surfactants and Polymer-Grafted Lipids with a Plant Lipid Transfer Protein, LTP1." Langmuir 18, no. 20 (2002): 7309–12. http://dx.doi.org/10.1021/la020163w.

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30

Wang, Honglin, Yue Sun, Jianhong Chang, et al. "Regulatory function of Arabidopsis lipid transfer protein 1 (LTP1) in ethylene response and signaling." Plant Molecular Biology 91, no. 4-5 (2016): 471–84. http://dx.doi.org/10.1007/s11103-016-0482-7.

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31

Lindorff-Larsen, Kresten, Mathilde H. Lerche, Flemming M. Poulsen, Peter Roepstorff, and Jakob R. Winther. "Barley Lipid Transfer Protein, LTP1, Contains a New Type of Lipid-like Post-translational Modification*." Journal of Biological Chemistry 276, no. 36 (2001): 33547–53. http://dx.doi.org/10.1074/jbc.m104841200.

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32

Molina, A., and F. García‐Olmedo. "Enhanced tolerance to bacterial pathogens caused by the transgenic expression of barley lipid transfer protein LTP2." Plant Journal 12, no. 3 (1997): 669–75. http://dx.doi.org/10.1046/j.1365-313x.1997.00605.x.

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Molina, A., and F. García‐Olmedo. "Enhanced tolerance to bacterial pathogens caused by the transgenic expression of barley lipid transfer protein LTP2." Plant Journal 12, no. 3 (1997): 669–75. http://dx.doi.org/10.1046/j.1365-313x.1997.00669.x.

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34

Paoli, Paolo, Alessandra Modesti, Francesca Magherini, et al. "Site-directed mutagenesis of two aromatic residues lining the active site pocket of the yeast Ltp1." Biochimica et Biophysica Acta (BBA) - General Subjects 1770, no. 5 (2007): 753–62. http://dx.doi.org/10.1016/j.bbagen.2006.12.012.

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35

Yin, Huijuan, Xuying Ye, Qing Niu, Chao Wang, and Yingxin Li. "Time course of apoptosis induced by photodynamic therapy with PsD007 in LT12 acute myeloid leukemia cells." Lasers in Medical Science 31, no. 5 (2016): 817–24. http://dx.doi.org/10.1007/s10103-016-1887-x.

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Karimian, Mohammad, Mehran Miroliaie, Kamran Ghaedi, Aliakbar Ehsanpour, and Zohreh Zahraie. "Construction of a Vector Containing Coding Sequence of Lipid Transfer Proten-2 (LTP2) Gene from Rice." Journal of Molecular Genetics 3, no. 1 (2011): 1–4. http://dx.doi.org/10.3923/jmolgene.2011.1.4.

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37

Wijesinha-Bettoni, Ramani, Chunli Gao, John A. Jenkins, et al. "Post-translational modification of barley LTP1b: The lipid adduct lies in the hydrophobic cavity and alters the protein dynamics." FEBS Letters 581, no. 24 (2007): 4557–61. http://dx.doi.org/10.1016/j.febslet.2007.08.041.

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38

Saeedi, Osamah, Sairah Yousaf, Joby Tsai, Kathleen Palmer, Saima Riazuddin, and Zubair Ahmed. "Delineation of Novel Compound Heterozygous Variants in LTBP2 Associated with Juvenile Open Angle Glaucoma." Genes 9, no. 11 (2018): 527. http://dx.doi.org/10.3390/genes9110527.

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Juvenile open angle glaucoma (JOAG), which is an uncommon form of primary open angle glaucoma, is a clinically and genetically heterogeneous disorder. We report on a family with a recessively inherited form of JOAG. The proband has a superior and an inferior never fiber layer thinning in both the eyes and the nasal visual field (VF) defects in the left eye, which are clinical findings consistent with glaucomatous optic neuropathy. Whole exome sequencing revealed two novel compound heterozygous variants [c.2966C>G, p.(Pro989Arg); c.5235T>G, p.(Asn1745Lys)] in latent transforming growth fa
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Wang, Xing, Qingrong Li, Chunyan Cheng, et al. "Genome-wide analysis of a putative lipid transfer protein LTP_2 gene family reveals CsLTP_2 genes involved in response of cucumber against root-knot nematode (Meloidogyne incognita)." Genome 63, no. 4 (2020): 225–38. http://dx.doi.org/10.1139/gen-2019-0157.

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Plant lipid transfer proteins (LTPs) are small basic proteins that play important roles in the regulation of various plant biological processes as well as the response to biotic and abiotic stresses. However, knowledge is limited on how this family of proteins is regulated in response to nematode infection in cucumber. In the present study, a total of 39 CsLTP_2 genes were identified by querying databases for cucumber-specific LTP_2 using a Hidden Markov Model approach and manual curation. The family has a five-cysteine motif (5CM) with the basic form CC-Xn-CXC-Xn-C, which differentiates it fr
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Oshchepkova, Yu I., O. N. Veshkurova, E. A. Rogozhin, et al. "Isolation of the lipid-transporting protein Ns-LTP1 from seeds of the garden fennel flower (Nigella sativa)." Russian Journal of Bioorganic Chemistry 35, no. 3 (2009): 315–19. http://dx.doi.org/10.1134/s1068162009030054.

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41

Magherini, Francesca, Tania Gamberi, Paolo Paoli, et al. "The in vivo tyrosine phosphorylation level of yeast immunophilin Fpr3 is influenced by the LMW-PTP Ltp1." Biochemical and Biophysical Research Communications 321, no. 2 (2004): 424–31. http://dx.doi.org/10.1016/j.bbrc.2004.06.158.

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Daskalakis, Michael, David Brocks, Christopher Schmidt, et al. "Epigenetic Drug Treatment Globally Induces Cryptic Transcription Start Sites Encoded in Long Terminal Repeats." Blood 128, no. 22 (2016): 3931. http://dx.doi.org/10.1182/blood.v128.22.3931.3931.

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Abstract Epigenetic drugs are currently used for the treatment of several hematologic malignancies, but their mechanism of action remains poorly understood. By using a previously described reporter cell line for epigenetic reactivation of the DAPK1 locus, we have shown that epigenetic treatment causes transcription from uncharacterized intronic transcription start sites (TSSs), thereby generating DAPK1 mRNA with novel first exons. Based on these findings, we analyzed whether inhibition of DNA-Methyltransferases (DNMTs), Histone deacetylases (HDACs), or both resulted in the genome-wide inductio
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43

Obruča, S., I. Márová, K. Pařilová, L. Müller, Z. Zdráhal, and R. Mikulíková. "A Contribution to Analysis of “Czech Beer” Authenticity." Czech Journal of Food Sciences 27, Special Issue 1 (2009): S323—S326. http://dx.doi.org/10.17221/1060-cjfs.

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Total benefit effect of beer is a result of many individual contributions of natural substances present in such complicated biological material. Recently, regional mark “Czech beer” was obtained by EC. This beer is processed by traditional technology using only recommended brewery materials. Presented work is focused on proteomic and metabolomic analysis of some characteristic active substances specific for “Czech beer”. Eight beer samples obtained from retail chain and/or from breweries were enrolled into this study. Polypeptides and proteins that influence beer sensory properties originated
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Douliez, Jean-Paul, Christine Pato, Hanitra Rabesona, Daniel Mollé, and Didier Marion. "Disulfide bond assignment, lipid transfer activity and secondary structure of a 7-kDa plant lipid transfer protein, LTP2." European Journal of Biochemistry 268, no. 5 (2001): 1400–1403. http://dx.doi.org/10.1046/j.1432-1327.2001.02007.x.

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45

Cicero, A., R. Urso, M. Rosticci, et al. "[OP.LB03.08] EFFECTS OF LTP2 PEPTIDE RICH WHEAT PRODUCTS ON BLOOD PRESSURE, ENDOTHELIAL REACTIVITY AND OTHER CARDIOVASCULAR RISK FACTORS." Journal of Hypertension 34 (September 2016): e113. http://dx.doi.org/10.1097/01.hjh.0000491630.44484.a2.

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Melnikova, D. N., I. V. Bogdanov, A. A. Ignatova, T. V. Ovchinnikova, and E. I. Finkina. "New insights into ligand binding by plant lipid transfer proteins: A case study of the lentil Lc-LTP2." Biochemical and Biophysical Research Communications 528, no. 1 (2020): 39–45. http://dx.doi.org/10.1016/j.bbrc.2020.04.139.

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Potocka, Izabela, Timothy C. Baldwin, and Ewa U. Kurczynska. "Distribution of lipid transfer protein 1 (LTP1) epitopes associated with morphogenic events during somatic embryogenesis of Arabidopsis thaliana." Plant Cell Reports 31, no. 11 (2012): 2031–45. http://dx.doi.org/10.1007/s00299-012-1314-0.

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Matejková, Michaela, Jitka Žídková, Lukáš Žídek, Michaela Wimmerová, Josef Chmelík, and Vladimír Sklenář. "Investigation of Thermal Denaturation of Barley Nonspecific Lipid Transfer Protein 1 (ns-LTP1b) by Nuclear Magnetic Resonance and Differential Scanning Calorimetry." Journal of Agricultural and Food Chemistry 57, no. 18 (2009): 8444–52. http://dx.doi.org/10.1021/jf902580f.

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Cai, Linfei, Charles S. Brennan, Huirong Yang, Wanying Li, and Haifeng Zhao. "Evolution of oxidative and structural characteristics of proteins, especially lipid transfer protein 1 (LTP1) in beer during forced‐ageing." International Journal of Food Science & Technology 54, no. 12 (2019): 3166–74. http://dx.doi.org/10.1111/ijfs.14250.

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Aggett, Rebecca, Evan Mallette, Stephanie E. Gilbert, et al. "The steroid side-chain–cleaving aldolase Ltp2–ChsH2DUF35 is a thiolase superfamily member with a radically repurposed active site." Journal of Biological Chemistry 294, no. 31 (2019): 11934–43. http://dx.doi.org/10.1074/jbc.ra119.008889.

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