scholarly article | Q13442814 |
P50 | author | Giovanni Battista Tornielli | Q42141278 |
Adolfo Speghini | Q55345527 | ||
Francesco Ferranti | Q58354676 | ||
Lara Reale | Q59467335 | ||
Mario Pezzotti | Q59821538 | ||
P2093 | author name string | Alberto Ferrarini | |
Anita Zamboni | |||
Sara Zenoni | |||
Andrea Porceddu | |||
Chiaraluce Moretti | |||
Luisa Lanfaloni | |||
P2860 | cites work | Fourier-Transform Raman and Fourier-Transform Infrared Spectroscopy (An Investigation of Five Higher Plant Cell Walls and Their Components) | Q74790375 |
The Five "Classical" Plant Hormones | Q74801411 | ||
Plant expansins are a complex multigene family with an ancient evolutionary origin | Q24554475 | ||
Expression of an expansin is associated with endosperm weakening during tomato seed germination | Q24555166 | ||
Expression of a divergent expansin gene is fruit-specific and ripening-regulated | Q24672829 | ||
Expression of expansin genes is correlated with growth in deepwater rice | Q24676268 | ||
Ozone quenching properties of isoprene and its antioxidant role in leaves | Q28344176 | ||
Modification of expansin transcript levels in the maize primary root at low water potentials | Q28345881 | ||
Cell wall architecture of the elongating maize coleoptile | Q28361411 | ||
Molecular cloning and sequence analysis of expansins--a highly conserved, multigene family of proteins that mediate cell wall extension in plants | Q30417062 | ||
GEG participates in the regulation of cell and organ shape during corolla and carpel development in gerbera hybrida | Q30714492 | ||
An expansin gene expressed in ripening strawberry fruit | Q30826568 | ||
Acid-growth response and alpha-expansins in suspension cultures of bright yellow 2 tobacco | Q31978496 | ||
Gene discovery in the wood-forming tissues of poplar: analysis of 5, 692 expressed sequence tags. | Q31991517 | ||
Local expression of expansin induces the entire process of leaf development and modifies leaf shape | Q33336458 | ||
Shaping in plant cells | Q33336565 | ||
Interactions between gene activity and cell layers during floral development | Q33338142 | ||
Co-suppression of the petunia homeotic gene fbp2 affects the identity of the generative meristem | Q33367101 | ||
Localized upregulation of a new expansin gene predicts the site of leaf formation in the tomato meristem | Q33368792 | ||
New genes and new biological roles for expansins | Q33840712 | ||
A plasma membrane-bound putative endo-1,4-beta-D-glucanase is required for normal wall assembly and cell elongation in Arabidopsis | Q33889563 | ||
Loosening of plant cell walls by expansins | Q33919830 | ||
DNA sequencing with chain-terminating inhibitors. 1977. | Q34258273 | ||
The ethylene signal transduction pathway in Arabidopsis. | Q34359477 | ||
Enzymes and other agents that enhance cell wall extensibility | Q34359610 | ||
Modification of expansin protein abundance in tomato fruit alters softening and cell wall polymer metabolism during ripening | Q34505751 | ||
Altered expression of expansin modulates leaf growth and pedicel abscission in Arabidopsis thaliana | Q34510112 | ||
Biosynthesis and properties of the plant cell wall | Q34977163 | ||
Cytoskeletal control of plant cell shape: getting the fine points | Q35032029 | ||
Expansins and cell growth | Q35581449 | ||
Creeping walls, softening fruit, and penetrating pollen tubes: the growing roles of expansins | Q36132505 | ||
A general method to isolate genes tagged by a high copy number transposable element. | Q36703052 | ||
COBRA encodes a putative GPI-anchored protein, which is polarly localized and necessary for oriented cell expansion in Arabidopsis | Q40423967 | ||
The plant cytoskeleton | Q40744848 | ||
Oligosaccharins, brassinolides, and jasmonates: nontraditional regulators of plant growth, development, and gene expression | Q40888927 | ||
Genetic control of cell division patterns in developing plants | Q41352409 | ||
Relaxation in a high-stress environment: the molecular bases of extensible cell walls and cell enlargement | Q41560532 | ||
Subcellular localization of expansin mRNA in xylem cells | Q42489342 | ||
Growth maintenance of the maize primary root at low water potentials involves increases in cell-wall extension properties, expansin activity, and wall susceptibility to expansins | Q42509614 | ||
Role of Expansin in Cell Enlargement of Oat Coleoptiles (Analysis of Developmental Gradients and Photocontrol). | Q42525965 | ||
Brassinosteroids rescue the deficiency of CYP90, a cytochrome P450, controlling cell elongation and de-etiolation in Arabidopsis. | Q42628760 | ||
Silencing of the tapetum-specific zinc finger gene TAZ1 causes premature degeneration of tapetum and pollen abortion in petunia | Q44170721 | ||
Expression of a mutant form of cellulose synthase AtCesA7 causes dominant negative effect on cellulose biosynthesis | Q44477464 | ||
Antisense expression of an Arabidopsis ran binding protein renders transgenic roots hypersensitive to auxin and alters auxin-induced root growth and development by arresting mitotic progress | Q46500599 | ||
Specific expression of an expansin gene during elongation of cotton fibres | Q47874709 | ||
Expansins are conserved in conifers and expressed in hypocotyls in response to exogenous auxin | Q47949277 | ||
Both sense and antisense RNAs are targets for the sense transgene-induced posttranscriptional silencing mechanism | Q49168749 | ||
Regulation of expansin gene expression affects growth and development in transgenic rice plants. | Q52104689 | ||
Detection of expansin proteins and activity during tomato fruit ontogeny. | Q52166096 | ||
A rapid method to screen for cell-wall mutants using discriminant analysis of Fourier transform infrared spectra. | Q52180708 | ||
Two independent and polarized processes of cell elongation regulate leaf blade expansion in Arabidopsis thaliana (L.) Heynh. | Q52201906 | ||
Pollen- and anther-specific chi promoters from petunia: tandem promoter regulation of the chiA gene | Q68445223 | ||
Transgenic plants | Q69856239 | ||
PROCUSTE1 encodes a cellulose synthase required for normal cell elongation specifically in roots and dark-grown hypocotyls of Arabidopsis | Q73371621 | ||
Analysis and expression of the alpha-expansin and beta-expansin gene families in maize | Q73877996 | ||
Expansins in growing tomato leaves | Q74461596 | ||
Molecular biology of the plant cell wall: searching for the genes that define structure, architecture and dynamics | Q74506437 | ||
KOBITO1 encodes a novel plasma membrane protein necessary for normal synthesis of cellulose during cell expansion in Arabidopsis | Q74742454 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cell wall | Q128700 |
cellulose | Q80294 | ||
phenotypic change | Q113460568 | ||
P304 | page(s) | 295-308 | |
P577 | publication date | 2004-01-23 | |
P1433 | published in | The Plant Cell | Q3988745 |
P1476 | title | Downregulation of the Petunia hybrida alpha-expansin gene PhEXP1 reduces the amount of crystalline cellulose in cell walls and leads to phenotypic changes in petal limbs | |
P478 | volume | 16 |
Q91990053 | A comprehensive expression analysis of the expansin gene family in potato (Solanum tuberosum) discloses stress-responsive expansin-like B genes for drought and heat tolerances |
Q61757080 | A multivariate statistical analysis approach to highlight molecular processes in plant cell walls through ATR FT-IR microspectroscopy: The role of the α-expansin PhEXPA1 in Petunia hybrida |
Q33292117 | A sepal-expressed ADP-glucose pyrophosphorylase gene (NtAGP) is required for petal expansion growth in 'Xanthi' tobacco |
Q42921849 | Aberrant Expression of Critical Genes during Secondary Cell Wall Biogenesis in a Cotton Mutant, Ligon Lintless-1 (Li-1). |
Q42906877 | Atkinesin-13A modulates cell-wall synthesis and cell expansion in Arabidopsis thaliana via the THESEUS1 pathway |
Q47809564 | Callose and cellulose synthase gene expression analysis from the tight cluster to the full bloom stage and during early fruit development in Malus × domestica. |
Q89071509 | Characterization of two CYP77 gene family members related to development of ornamental organs in petunia |
Q41209588 | Cloning, characterization, and expression of xyloglucan endotransglucosylase/hydrolase and expansin genes associated with petal growth and development during carnation flower opening |
Q37658074 | Comparative RNA-seq analysis of transcriptome dynamics during petal development in Rosa chinensis |
Q35105948 | Comprehensive transcriptome analysis of developing xylem responding to artificial bending and gravitational stimuli in Betula platyphylla |
Q55221815 | Control of Plant Organ Size |
Q37779618 | Control of tissue and organ growth in plants |
Q33544107 | Differential expression of genes identified by suppression subtractive hybridization in petals of opening carnation flowers |
Q36482055 | Down-regulation of the IbEXP1 gene enhanced storage root development in sweetpotato |
Q33937025 | EST analysis of functional genes associated with cell wall biosynthesis and modification in the secondary xylem of the yellow poplar (Liriodendron tulipifera) stem during early stage of tension wood formation |
Q42282566 | EXPANSINA17 up-regulated by LBD18/ASL20 promotes lateral root formation during the auxin response |
Q51777508 | FORMOSA controls cell division and expansion during floral development in Antirrhinum majus. |
Q33392963 | Galactose metabolism in cell walls of opening and senescing petunia petals |
Q46685019 | GbEXPATR, a species-specific expansin, enhances cotton fibre elongation through cell wall restructuring. |
Q37868646 | Genetic control of plant organ growth |
Q36367482 | Genome histories clarify evolution of the expansin superfamily: new insights from the poplar genome and pine ESTs. |
Q28834583 | Global Transcriptome Profiling Analysis of Inhibitory Effects of Paclobutrazol on Leaf Growth in Lily (Lilium Longiflorum-Asiatic Hybrid) |
Q29616250 | Growth of the plant cell wall |
Q47444240 | Inducible repression of multiple expansin genes leads to growth suppression during leaf development. |
Q44924504 | Interaction between wall deposition and cell elongation in dark-grown hypocotyl cells in Arabidopsis |
Q48713106 | Nomenclature for members of the expansin superfamily of genes and proteins. |
Q35016862 | Overexpression of OsEXPA8, a root-specific gene, improves rice growth and root system architecture by facilitating cell extension |
Q33351096 | Overexpression of PhEXPA1 increases cell size, modifies cell wall polymer composition and affects the timing of axillary meristem development in Petunia hybrida |
Q87830324 | Overexpression of sweetpotato expansin cDNA (IbEXP1) increases seed yield in Arabidopsis |
Q41359412 | Overexpression of the carbohydrate binding module of strawberry expansin2 in Arabidopsis thaliana modifies plant growth and cell wall metabolism |
Q33349941 | Overexpression of two cambium-abundant Chinese fir (Cunninghamia lanceolata) α-expansin genes ClEXPA1 and ClEXPA2 affect growth and development in transgenic tobacco and increase the amount of cellulose in stem cell walls |
Q33352571 | PhEXPA1, a Petunia hybrida expansin, is involved in cell wall metabolism and in plant architecture specification |
Q39937619 | Portrait of the expansin superfamily in Physcomitrella patens: comparisons with angiosperm expansins |
Q36087518 | Promiscuous, non-catalytic, tandem carbohydrate-binding modules modulate the cell-wall structure and development of transgenic tobacco (Nicotiana tabacum) plants |
Q36911072 | RNA-Seq and iTRAQ Reveal the Dwarfing Mechanism of Dwarf Polish Wheat (Triticum polonicum L.). |
Q39197343 | RhEXPA4, a rose expansin gene, modulates leaf growth and confers drought and salt tolerance to Arabidopsis |
Q34455915 | RhNAC2 and RhEXPA4 are involved in the regulation of dehydration tolerance during the expansion of rose petals. |
Q45408376 | Stability of Potato virus X expression vectors is related to insert size: implications for replication models and risk assessment |
Q25255616 | Statistical analysis of real-time PCR data |
Q42728403 | Structure-function analysis of the bacterial expansin EXLX1. |
Q92703013 | The Snapdragon LATE ELONGATED HYPOCOTYL Plays A Dual Role in Activating Floral Growth and Scent Emission |
Q31121566 | The alpha- and beta-expansin and xyloglucan endotransglucosylase/hydrolase gene families of wheat: molecular cloning, gene expression, and EST data mining |
Q46673065 | The regulation of cell wall extensibility during shade avoidance: a study using two contrasting ecotypes of Stellaria longipes |
Q37906156 | The use of FTIR spectroscopy to monitor modifications in plant cell wall architecture caused by cellulose biosynthesis inhibitors. |
Q41921145 | Tobacco alpha-expansin EXPA4 plays a role in Nicotiana benthamiana defence against Tobacco mosaic virus |
Q48081168 | Transcriptional analysis of petal organogenesis in Gerbera hybrida |
Q90076320 | Transcriptome profiling provides insights into molecular mechanism in Peanut semi-dwarf mutant |
Q57810714 | Transcriptome-wide effects of expansin gene manipulation in etiolated Arabidopsis seedling |
Q36377387 | Transcriptomic data of Arabidopsis thaliana hypocotyl upon suppression of expansin genes |
Q45852441 | Validation of Aintegumenta as a gene to modify floral size in ornamental plants |
Q33522477 | Validation of reference genes for quantitative real-time PCR during leaf and flower development in Petunia hybrida |
Q44279861 | Xyloglucan endotransglycosylase/hydrolase genes in cotton and their role in fiber elongation |
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