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    Journal Article/Article (Journal Article)/Scientific[31428211] [Validated]
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  4. Padaria Jasdeep Chatrath et al. Molecular cloning and characterization of drought stress responsive abscisic acid-stress-ripening (Asr 1) gene from wild jujube, Ziziphus nummularia (Burm.f.) Wight & Arn. (2016) MOLECULAR BIOLOGY REPORTS 0301-4851 1573-4978 43 8 849-859
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    Független, Idéző: 24392834, Kapcsolat: 24392834
  6. Golan Ido et al. Tomato ABSCISIC ACID STRESS RIPENING (ASR) Gene Family Revisited. (2014) PLOS ONE 1932-6203 1932-6203 9 10
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  7. Hu Yu-Xin et al. The SlASR gene cloned from the extreme halophyte Suaeda liaotungensis K. enhances abiotic stress tolerance in transgenic Arabidopsis thaliana. (2014) GENE 0378-1119 1879-0038 549 2 243-251
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    Független, Idéző: 24392836, Kapcsolat: 24392836
  8. Rout G.R. et al. Stress tolerance in plants: A proteomics approach. (2013) In: Molecular Stress Physiology of Plants pp. 359-386
    Chapter in Book/Chapter (Chapter in Book)/Scientific[31488014] [Approved]
    Független, Idéző: 31488014, Kapcsolat: 29862967
  9. Fischer I et al. Sequence Evolution and Expression Regulation of Stress-Responsive Genes in Natural Populations of Wild Tomato. (2013) PLOS ONE 1932-6203 1932-6203 8 10
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    Független, Idéző: 23639858, Kapcsolat: 23639858
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    Chapter in Book/Chapter (Chapter in Book)/Scientific[23262961] [Approved]
    Független, Idéző: 23262961, Kapcsolat: 23262961
  11. Wang CS et al. New Insights into Desiccation-Associated Gene Regulation by Lilium longiflorum ASR during Pollen Maturation and in Transgenic Arabidopsis. (2013) INTERNATIONAL REVIEW OF CELL AND MOLECULAR BIOLOGY 1937-6448 301 37-94
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    Független, Idéző: 23348991, Kapcsolat: 23348991
  12. Bhardwaj Renu et al. LEA Proteins in Salt Stress Tolerance. (2013) In: Salt Stress in Plants pp. 79-112
    Chapter in Book/Chapter (Chapter in Book)/Scientific[23009799] [Admin approved]
    Független, Idéző: 23009799, Kapcsolat: 29862960
  13. Arenhart RA et al. Involvement of ASR genes in aluminium tolerance mechanisms in rice. (2013) PLANT CELL AND ENVIRONMENT 0140-7791 1365-3040 36 52-67
    Journal Article/Article (Journal Article)/Scientific[23262951] [Approved]
    Független, Idéző: 23262951, Kapcsolat: 23262951
  14. Joo J et al. Abiotic stress responsive rice ASR1 and ASR3 exhibit different tissue-dependent sugar and hormone-sensitivities. (2013) MOLECULES AND CELLS 1016-8478 0219-1032 35 421-435
    Journal Article/Article (Journal Article)/Scientific[23262963] [Approved]
    Független, Idéző: 23262963, Kapcsolat: 23262963
  15. Zhou Gui et al. Proteomic Analysis of Osmotic Stress-Responsive Proteins in Sugarcane Leaves. (2012) PLANT MOLECULAR BIOLOGY REPORTER 0735-9640 30 2 349-359
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  16. Zhu JW et al. Cloning and function analysis of a drought-inducible gene associated with resistance to Curvularia leaf spot in maize. (2012) MOLECULAR BIOLOGY REPORTS 0301-4851 1573-4978 39 8 7919-7926
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    Független, Idéző: 23348992, Kapcsolat: 23348992
  17. Virlouvet L et al. The ZmASR1 Protein Influences Branched-Chain Amino Acid Biosynthesis and Maintains Kernel Yield in Maize under Water-Limited Conditions. (2011) PLANT PHYSIOLOGY 0032-0889 1532-2548 157 2 917-936
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    Független, Idéző: 22226647, Kapcsolat: 21972625
  18. Chen Jian-ye et al. Molecular Characterization of a Strawberry FaASR Gene in Relation to Fruit Ripening. (2011) PLOS ONE 1932-6203 1932-6203 6 9
    Journal Article/Article (Journal Article)/Scientific[23306052] [Admin approved]
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  19. Su L et al. Isolation and expression analysis of LEA genes in peanut (Arachis hypogaea L.). (2011) JOURNAL OF BIOSCIENCES 0250-5991 0973-7138 36 2 223-228
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    Független, Idéző: 21972627, Kapcsolat: 21972627
  20. Gai YP et al. A Novel Late Embryogenesis Abundant Like Protein Associated with Chilling Stress in Nicotiana tabacum cv. Bright Yellow-2 Cell Suspension Culture. (2011) MOLECULAR & CELLULAR PROTEOMICS 1535-9476 1535-9484 10 11
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    Független, Idéző: 21972628, Kapcsolat: 21972628
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  22. Liu HY et al. Characterization of a Novel Plantain Asr Gene, MpAsr, that is Regulated in Response to Infection of Fusarium oxysporum f. sp cubense and Abiotic Stresses. (2010) JOURNAL OF INTEGRATIVE PLANT BIOLOGY 1672-9072 1744-7909 52 3 315-323
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    Független, Idéző: 21202259, Kapcsolat: 21202259
  23. Kim SJ et al. Ectopic expression of a cold-responsive OsAsr1 cDNA gives enhanced cold tolerance in transgenic rice plants. (2009) MOLECULES AND CELLS 1016-8478 0219-1032 27 4 449-458
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  24. Ke YQ et al. Differential regulation of proteins and phosphoproteins in rice under drought stress. (2009) BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS 0006-291X 1090-2104 379 1 133-138
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    Független, Idéző: 20810343, Kapcsolat: 20810343
  25. Yang CY et al. The LLA23 protein translocates into nuclei shortly before desiccation in developing pollen grains and regulates gene expression in Arabidopsis. (2008) PROTOPLASMA 0033-183X 1615-6102 233 3-4 241-254
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  26. Battaglia M et al. The enigmatic LEA proteins and other hydrophilins. (2008) PLANT PHYSIOLOGY 0032-0889 1532-2548 148 1 6-24
    Journal Article/Article (Journal Article)/Scientific[20810345] [Approved]
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  27. Boubriak I et al. DNA Structure and Seed Desiccation Tolerance. (2008) In: Plant Desiccation Tolerance pp. 215-249
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    Független, Idéző: 23639859, Kapcsolat: 23639859
  28. Byun M-O et al. Recent advances in genetic engineering of potato crops for drought and saline stress tolerance. (2007) In: Advances in Molecular Breeding Toward Drought and Salt Tolerant Crops pp. 713-737
    Chapter in Book/Chapter (Chapter in Book)/Scientific[24205359] [Approved]
    Független, Idéző: 24205359, Kapcsolat: 29862964
  29. Gazanchian A et al. Proteome response of Elymus elongatum to severe water stress and recovery. (2007) JOURNAL OF EXPERIMENTAL BOTANY 0022-0957 1460-2431 58 291-300
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  30. Goldgur Y et al. Desiccation and zinc binding induce transition of tomato abscisic acid stress ripening 1, a water stress- and salt stress-regulated plant-specific protein, from unfolded to folded state. (2007) PLANT PHYSIOLOGY 0032-0889 1532-2548 143 2 617-628
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  32. Shen G et al. Molecular cloning, characterization and expression of a novel Asr gene from Ginkgo biloba. (2005) PLANT PHYSIOLOGY AND BIOCHEMISTRY 0981-9428 1873-2690 43 836-843
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    Független, Idéző: 20230083, Kapcsolat: 20230083
  33. Wang HJ et al. A lily pollen ASR protein localizes to both cytoplasm and nuclei requiring a nuclear localization signal. (2005) PHYSIOL PLANT 123 314-320
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  34. Yang CY et al. A lily ASR protein involves abscisic acid signaling and confers drought and salt resistance in Arabidopsis. (2005) PLANT PHYSIOLOGY 0032-0889 1532-2548 139 836-846
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  35. Kalifa Y et al. The water- and salt-stress-regulated Asr1 (abscisic acid stress ripening) gene encodes a zinc-dependent DNA-binding protein. (2004) BIOCHEMICAL JOURNAL 0264-6021 1470-8728 381 373-378
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  36. Kalifa Y et al. Over-expression of the water and salt stress-regulated Asr1 gene confers an increased salt tolerance. (2004) PLANT CELL AND ENVIRONMENT 0140-7791 1365-3040 27 1459-1468
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    Független, Idéző: 22150376, Kapcsolat: 20230087
  37. Wang HJ et al. The nuclear localization signal of a pollen-specific, desiccation-associated protein of lily is necessary and sufficient for nuclear targeting. (2003) BOTANICAL BULLETIN OF ACADEMIA SINICA 0006-8063 1817-406X 1999-3110 44 123-128
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  38. Tammam A A. Response of Vicia Faba plants to the interactive effect of sodium chloride salinity and salicylic acid treatment. (2003) ACTA AGRONOMICA HUNGARICA: A QUARTERLY OF THE HUNGARIAN ACADEMY OF SCIENCES : AN INTERNATIONAL MULTIDISCIPLINARY JOURNAL IN AGRICULTURAL SCIENCE 0238-0161 1588-2527 51 3 239-248
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  39. Cakir B et al. A grape ASR protein involved in sugar and abscisic acid signaling. (2003) PLANT CELL 1040-4651 1532-298X 15 2165-2180
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  40. Korol L et al. Profiles of Trinexapac-ethyl- and ABA-induced heat-stable proteins in embryonic axes of wheat seeds. (2002) EUPHYTICA 0014-2336 1573-5060 126 77-81
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  42. Jeanneau M et al. Improvement of drought tolerance in maize: towards the functional validation of the Zm-Asr1 gene and increase of water use efficiency by over-expressing C4-PEPC. (2002) BIOCHIMIE 0300-9084 84 1127-1135
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  43. Sugiharto B et al. Identification and characterization of a gene encoding drought-inducible protein localizing in the bundle sheath cell of sugarcane. (2002) PLANT AND CELL PHYSIOLOGY 0032-0781 1471-9053 43 350-354
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  44. Salekdeh Gh.H. et al. A proteomic approach to analyzing drought- and salt-responsiveness in rice. (2002) FIELD CROPS RESEARCH 0378-4290 1872-6852 76 2-3 199-219
    Journal Article/Article (Journal Article)/Scientific[31882604] [Approved]
    Független, Idéző: 31882604, Kapcsolat: 29862969
  45. Kim M et al. Isolation of cDNA clones differentially accumulated in the placenta of pungent pepper by suppression subtractive hybridization. (2001) MOLECULES AND CELLS 1016-8478 0219-1032 11 213-219
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  46. Makarova KS et al. Genome of the extremely radiation-resistant bacterium Deinococcus radiodurans viewed from the perspective of comparative genomics. (2001) MICROBIOLOGY AND MOLECULAR BIOLOGY REVIEWS 1092-2172 65 44-+
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  47. Panta G R et al. Effect of cold and drought stress on blueberry dehydrin accumulation. (2001) JOURNAL OF HORTICULTURAL SCIENCE & BIOTECHNOLOGY 1462-0316 2380-4084 76 5 549-556
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  48. Maskin L et al. Differential expression of the members of the Asr gene family in tomato (Lycopersicon esculentum). (2001) PLANT SCIENCE 0168-9452 161 739-746
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  49. Itai A et al. Isolation of cDNA clones corresponding to genes expressed during fruit ripening in Japanese pear (Pyrus pyrifolia Nakai): involvement of the ethylene signal transduction pathway in their expression. (2000) JOURNAL OF EXPERIMENTAL BOTANY 0022-0957 1460-2431 51 1163-1166
    Journal Article[20230099] [Admin approved]
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    Journal Article/Article (Journal Article)/Scientific[1103344] [Admin approved]
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  58. Schneider A et al. Expression patterns and promoter activity of the cold-regulated gene ci21A of potato. (1997) PLANT PHYSIOLOGY 0032-0889 1532-2548 113 335-345
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  59. Padmanabhan V et al. Expression analysis of a gene family in loblolly pine (Pinus taeda L.) induced by water deficit stress. (1997) PLANT MOLECULAR BIOLOGY 0167-4412 1573-5028 35 6 801-807
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Silhavy D. Solanum chacoense lines with different alkaloid contents - a potential source of genes involved in leptine synthesis. (1996) ACTA AGRONOMICA HUNGARICA: A QUARTERLY OF THE HUNGARIAN ACADEMY OF SCIENCES : AN INTERNATIONAL MULTIDISCIPLINARY JOURNAL IN AGRICULTURAL SCIENCE 0238-0161 1588-2527 44 113-120, 125158
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Silhavy D et al. Mapping of promoters for the nucleus encoded plastid RNA polymerase (NEP) in the iojap maize mutant. (1998) CURRENT GENETICS 0172-8083 1432-0983 33 5 340-344, 1271158
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  2. Macadlo Lauren A. et al. Sigma factor 1 in chloroplast gene transcription and photosynthetic light acclimation. (2020) JOURNAL OF EXPERIMENTAL BOTANY 0022-0957 1460-2431 71 3 1029-1038
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  3. Castandet Benoit et al. Systematic sequencing of chloroplast transcript termini from Arabidopsis thaliana reveals > 200 transcription initiation sites and the extensive imprints of RNA-binding proteins and secondary structures. (2019) NUCLEIC ACIDS RESEARCH 0305-1048 1362-4962 47 22 11889-11905
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  4. Yu Qing-Bo et al. pTAC10, an S1-domain-containing component of the transcriptionally active chromosome complex, is essential for plastid gene expression in Arabidopsis thaliana and is phosphorylated by chloroplast-targeted casein kinase II. (2018) PHOTOSYNTHESIS RESEARCH 0166-8595 1573-5079 137 1 69-83
    Journal Article/Article (Journal Article)/Scientific[27545037] [Validated]
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  5. Wu JX et al. The molecular cloning and clarification of a photorespiratory mutant, oscdm1, using enhancer trapping. (2015) FRONTIERS IN GENETICS 1664-8021 6
    Journal Article/Article (Journal Article)/Scientific[26815255] [Approved]
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  6. Ortelt J. et al. Plastid gene transcription: Promoters and RNA polymerases. (2014) In: Methods in Molecular Biology pp. 47-72
    Chapter in Book/Chapter (Chapter in Book)/Scientific[31597353] [Approved]
    Független, Idéző: 31597353, Kapcsolat: 29449830
  7. Börner T. et al. Chloroplast gene expression-RNA synthesis and processing. (2014) In: Plastid Biology pp. 3-47
    Chapter in Book/Chapter (Chapter in Book)/Scientific[31597356] [Approved]
    Független, Idéző: 31597356, Kapcsolat: 29449833
  8. Tseng CC et al. Differential regulation of Arabidopsis plastid gene expression and RNA editing in non-photosynthetic tissues. (2013) PLANT MOLECULAR BIOLOGY 0167-4412 1573-5028 82 4-5 375-392
    Journal Article[23349004] [Approved]
    Független, Idéző: 23349004, Kapcsolat: 23349004
  9. Zhong Linlin et al. Chloroplast Small Heat Shock Protein HSP21 Interacts with Plastid Nucleoid Protein pTAC5 and Is Essential for Chloroplast Development in Arabidopsis under Heat Stress. (2013) PLANT CELL 1040-4651 1532-298X 25 8 2925-2943
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    Független, Idéző: 24392465, Kapcsolat: 24392465
  10. Weihe A et al. Transcription and Transcription Regulation in Chloroplasts and Mitochondria of Higher Plants. (2012) In: ORGANELLE GENETICS: EVOLUTION OF ORGANELLE GENOMES AND GENE EXPRESSION pp. 297-325
    Chapter in Book[23349005] [Approved]
    Független, Idéző: 23349005, Kapcsolat: 23349005
  11. Jeon Y et al. S1 domain-containing STF modulates plastid transcription and chloroplast biogenesis in Nicotiana benthamiana. (2012) NEW PHYTOLOGIST 0028-646X 1469-8137 193 2 349-363
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    Független, Idéző: 23349006, Kapcsolat: 23349006
  12. Sosso D et al. PPR8522 encodes a chloroplast-targeted pentatricopeptide repeat protein necessary for maize embryogenesis and vegetative development. (2012) JOURNAL OF EXPERIMENTAL BOTANY 0022-0957 1460-2431 63 16 5843-5857
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    Független, Idéző: 23349007, Kapcsolat: 23349007
  13. Kanesaki Y et al. External Light Conditions and Internal Cell Cycle Phases Coordinate Accumulation of Chloroplast and Mitochondrial Transcripts in the Red Alga Cyanidioschyzon merolae. (2012) DNA RESEARCH 1340-2838 1756-1663 19 3 289-303
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    Független, Idéző: 23349008, Kapcsolat: 23349008
  14. Liere K et al. The transcription machineries of plant mitochondria and chloroplasts: Composition, function, and regulation. (2011) JOURNAL OF PLANT PHYSIOLOGY 0176-1617 168 12 1345-1360
    Journal Article[23349015] [Approved]
    Független, Idéző: 23349015, Kapcsolat: 23349009
  15. Grose JH. REGULATION OF NAD(P) METABOLISM IN SALMONELLA. (2011) In: LURE OF BACTERIAL GENETICS: A TRIBUTE TO JOHN ROTH pp. 75-86
    Chapter in Book[23349010] [Approved]
    Független, Idéző: 23349010, Kapcsolat: 23349010
  16. Leelavathi S et al. Genome-wide transcriptome and proteome analyses of tobacco psaA and psbA deletion mutants. (2011) PLANT MOLECULAR BIOLOGY 0167-4412 1573-5028 76 3-5 407-423
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    Független, Idéző: 23349011, Kapcsolat: 23349011
  17. Kusumi K et al. A plastid protein NUS1 is essential for build-up of the genetic system for early chloroplast development under cold stress conditions. (2011) PLANT JOURNAL 0960-7412 1365-313X 68 6 1039-1050
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    Független, Idéző: 23349022, Kapcsolat: 23349012
  18. Tseng CC et al. Editing of accD and ndhF chloroplast transcripts is partially affected in the Arabidopsis vanilla cream1 mutant. (2010) PLANT MOLECULAR BIOLOGY 0167-4412 1573-5028 73 3 309-323
    Journal Article[21049010] [Admin approved]
    Független, Idéző: 21049010, Kapcsolat: 21049010
  19. Newton K.J. et al. Mitochondria and chloroplasts. (2009) In: Handbook of Maize: Genetics and Genomics pp. 481-503
    Chapter in Book/Chapter (Chapter in Book)/Scientific[31882546] [Approved]
    Független, Idéző: 31882546, Kapcsolat: 29862895
  20. Nakamura H et al. Ectopic Overexpression of The Transcription Factor OsGLK1 Induces Chloroplast Development in Non-Green Rice Cells. (2009) PLANT AND CELL PHYSIOLOGY 0032-0781 1471-9053 50 11 1933-1949
    Journal Article[21049011] [Admin approved]
    Független, Idéző: 21049011, Kapcsolat: 21049011
  21. Greiner S et al. The complete nucleotide sequences of the five genetically distinct plastid genomes of Oenothera, subsection Oenothera: I. Sequence evaluation and plastome evolution. (2008) NUCLEIC ACIDS RESEARCH 0305-1048 1362-4962 36 7 2366-2378
    Journal Article[20810683] [Admin approved]
    Független, Idéző: 20810683, Kapcsolat: 20810683
  22. Greiner S et al. The complete nucleotide sequences of the 5 genetically distinct plastid genomes of Oenothera, subsection Oenothera: II. A microevolutionary view using bioinformatics and formal genetic data. (2008) MOLECULAR BIOLOGY AND EVOLUTION 0737-4038 1537-1719 25 9 2019-2030
    Journal Article[20810616] [Admin approved]
    Független, Idéző: 20810616, Kapcsolat: 20810684
  23. Azevedo J et al. Intraplastidial trafficking of a phage-type RNA polymerase is mediated by a thylakoid RING-H2 protein. (2008) PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 0027-8424 1091-6490 105 26 9123-9128
    Journal Article[20810685] [Admin approved]
    Független, Idéző: 20810685, Kapcsolat: 20810685
  24. Swiatecka-Hagenbruch M et al. Impaired function of the phage-type RNA polymerase RpoTp in transcription of chloroplast genes is compensated by a second phage-type RNA polymerase. (2008) NUCLEIC ACIDS RESEARCH 0305-1048 1362-4962 36 3 785-792
    Journal Article[20810665] [Admin approved]
    Független, Idéző: 20810665, Kapcsolat: 20810686
  25. Callister SJ et al. Comparative Bacterial Proteomics: Analysis of the Core Genome Concept. (2008) PLOS ONE 1932-6203 1932-6203 3 2 p. e1542
    Journal Article[21049012] [Admin approved]
    Független, Idéző: 21049012, Kapcsolat: 21049012
  26. Liere K. et al. Transcription of Plastid Genes. (2007) In: Regulation of Transcription in Plants pp. 184-224
    Chapter in Book/Chapter (Chapter in Book)/Scientific[30846837] [Approved]
    Független, Idéző: 30846837, Kapcsolat: 29862892
  27. Yang KS et al. Silencing of NbBTF3 results in developmental defects and disturbed gene expression in chloroplasts and mitochondria of higher plants. (2007) PLANTA 0032-0935 1432-2048 225 6 1459-1469
    Journal Article[20810687] [Admin approved]
    Független, Idéző: 20810687, Kapcsolat: 20810687
  28. Courtois F et al. Phage-type RNA polymerase RPOTmp transcribes the rrn operon from the PC promoter at early developmental stages in arabidopsis. (2007) PLANT PHYSIOLOGY 0032-0889 1532-2548 145 3 712-721
    Journal Article[20810642] [Admin approved]
    Független, Idéző: 20810642, Kapcsolat: 20810688
  29. Swiatecka-Hagenbruch M et al. High diversity of plastidial promoters in Arabidopsis thaliana. (2007) MOLECULAR GENETICS AND GENOMICS 1617-4615 1617-4623 277 6 725-734
    Journal Article[20810643] [Admin approved]
    Független, Idéző: 20810643, Kapcsolat: 20810689
  30. Pfalz J et al. PTAC2,-6, and-12 are components of the transcriptionally active plastid chromosome that are required for plastid gene expression. (2006) PLANT CELL 1040-4651 1532-298X 18 1 176-197
    Journal Article[20810690] [Admin approved]
    Független, Idéző: 20810690, Kapcsolat: 20810690
  31. Demarsy E et al. Building up of the plastid transcriptional machinery during germination and early plant development. (2006) PLANT PHYSIOLOGY 0032-0889 1532-2548 142 3 993-1003
    Journal Article[20810692] [Admin approved]
    Független, Idéző: 20810692, Kapcsolat: 20810692
  32. Lysenko EA et al. Plastid RNA polymerases. (2005) MOLECULAR BIOLOGY 0026-8933 1608-3245 39 5 762-775
    Journal Article[20810693] [Admin approved]
    Független, Idéző: 20810693, Kapcsolat: 20810693
  33. Sugimoto H et al. The virescent-2 mutation inhibits translation of plastid transcripts for the plastid genetic system at an early stage of chloroplast differentiation. (2004) PLANT AND CELL PHYSIOLOGY 0032-0781 1471-9053 45 8 985-996
    Journal Article[20810694] [Admin approved]
    Független, Idéző: 20810694, Kapcsolat: 20810694
  34. Berg S et al. The rbcL genes of two Cuscuta species, C-gronovii and C-subinclusa, are transcribed by the nuclear-encoded plastid RNA polymerase (NEP). (2004) PLANTA 0032-0935 1432-2048 219 3 541-546
    Journal Article[20810695] [Admin approved]
    Független, Idéző: 20810695, Kapcsolat: 20810695
  35. Kumar S et al. Stable transformation of the cotton plastid genome and maternal inheritance of transgenes. (2004) PLANT MOLECULAR BIOLOGY 0167-4412 1573-5028 56 2 203-216
    Journal Article[20810696] [Admin approved]
    Független, Idéző: 20810696, Kapcsolat: 20810696
  36. Halter CP et al. RNA editing in ribosome-less plastids of iojap maize. (2004) CURRENT GENETICS 0172-8083 1432-0983 45 5 331-337
    Journal Article[20810697] [Admin approved]
    Független, Idéző: 20810697, Kapcsolat: 20810697
  37. Hirata N et al. Possible involvement of the 5 '-flanking region and the 5 ' UTR of plastid accD gene in NEP-dependent transcription. (2004) PLANT AND CELL PHYSIOLOGY 0032-0781 1471-9053 45 2 176-186
    Journal Article[20810698] [Admin approved]
    Független, Idéző: 20810698, Kapcsolat: 20810698
  38. Nagashima A. et al. DNA microarray analysis of plastid gene expression in an Arabidopsis mutant deficient in a plastid transcription factor sigma, SIG2. (2004) BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY 0916-8451 1347-6947 68 3 694-704
    Journal Article/Article (Journal Article)/Scientific[31882545] [Approved]
    Független, Idéző: 31882545, Kapcsolat: 29862894
  39. Emanuel C et al. Chloroplast development affects expression of phage-type RNA polymerases in barley leaves. (2004) PLANT JOURNAL 0960-7412 1365-313X 38 460-472
    Journal Article[22183421] [Approved]
    Független, Idéző: 22183421, Kapcsolat: 20810699
  40. Salvador ML et al. Changes in the 5 '-untranslated region of the rbcL gene accelerate transcript degradation more than 50-fold in the chloroplast of Chlamydomonas reinhardtii. (2004) CURRENT GENETICS 0172-8083 1432-0983 45 3 176-182
    Journal Article[20810700] [Admin approved]
    Független, Idéző: 20810700, Kapcsolat: 20810700
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