Rupali Bhalerao

Publications (7)19.32 Total impact

• Article: Cambial meristem dormancy in trees involves extensive remodelling of the transcriptome.

  Jarmo Schrader, Richard Moyle, Rupali Bhalerao, Magnus Hertzberg, Joakim Lundeberg, Peter Nilsson, Rishikesh P Bhalerao
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  ABSTRACT: The establishment of the dormant state in meristems involves considerable physiological and metabolic alterations necessary for surviving unfavourable growth conditions. However, a global molecular analysis of dormancy in meristems has been hampered by the difficulty in isolating meristem cells. We used cryosectioning to isolate purified cambial meristem cells from the woody plant Populus tremula during active growth and dormancy. These samples were used to generate meristem-specific cDNA libraries and for cDNA microarray experiments to define the global transcriptional changes underlying cambial dormancy. The results indicate a significant reduction in the complexity of the cambial transcriptome in the dormant state. Although cell division is terminated in the dormant cambium, the cell cycle machinery appears to be maintained in a skeletal state as suggested by the continued presence of transcripts for several cell cycle regulators. The downregulation of PttPIN1 and PttPIN2 transcripts explains the reduced basipetal polar auxin transport during dormancy. The induction of a member of the SINA family of ubiquitin ligases implicated in auxin signalling indicates a potential mechanism for modulation of auxin sensitivity during cambial dormancy. The metabolic alterations during dormancy are mirrored in the induction of genes involved in starch breakdown and the glyoxysomal cycle. Interestingly, the induction of RGA1 like gene suggests modification of gibberellin signalling in cambial dormancy. The induction of genes such as poplar orthologues of FIE and HAP2 indicates a potential role for these global regulators of transcription in orchestrating extensive changes in gene expression during dormancy.
  The Plant Journal 11/2004; 40(2):173-87. · 6.16 Impact Factor
• Source

  Available from: Andreas Sjödin

  Article: A transcriptional timetable of autumn senescence.

  Anders Andersson, Johanna Keskitalo, Andreas Sjödin, Rupali Bhalerao, Fredrik Sterky, Kirsten Wissel, Karolina Tandre, Henrik Aspeborg, Richard Moyle, Yasunori Ohmiya, [......], Petter Gustafsson, Jan Karlsson, Joakim Lundeberg, Ove Nilsson, Göran Sandberg, Steven Strauss, Björn Sundberg, Mathias Uhlen, Stefan Jansson, Peter Nilsson
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  ABSTRACT: We have developed genomic tools to allow the genus Populus (aspens and cottonwoods) to be exploited as a full-featured model for investigating fundamental aspects of tree biology. We have undertaken large-scale expressed sequence tag (EST) sequencing programs and created Populus microarrays with significant gene coverage. One of the important aspects of plant biology that cannot be studied in annual plants is the gene activity involved in the induction of autumn leaf senescence. On the basis of 36,354 Populus ESTs, obtained from seven cDNA libraries, we have created a DNA microarray consisting of 13,490 clones, spotted in duplicate. Of these clones, 12,376 (92%) were confirmed by resequencing and all sequences were annotated and functionally classified. Here we have used the microarray to study transcript abundance in leaves of a free-growing aspen tree (Populus tremula) in northern Sweden during natural autumn senescence. Of the 13,490 spotted clones, 3,792 represented genes with significant expression in all leaf samples from the seven studied dates. We observed a major shift in gene expression, coinciding with massive chlorophyll degradation, that reflected a shift from photosynthetic competence to energy generation by mitochondrial respiration, oxidation of fatty acids and nutrient mobilization. Autumn senescence had much in common with senescence in annual plants; for example many proteases were induced. We also found evidence for increased transcriptional activity before the appearance of visible signs of senescence, presumably preparing the leaf for degradation of its components.
  Genome biology 02/2004; 5(4):R24. · 6.63 Impact Factor
• Article: Gene expression in autumn leaves.

  Rupali Bhalerao, Johanna Keskitalo, Fredrik Sterky, Rikard Erlandsson, Harry Björkbacka, Simon Jonsson Birve, Jan Karlsson, Per Gardeström, Petter Gustafsson, Joakim Lundeberg, Stefan Jansson
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  ABSTRACT: Two cDNA libraries were prepared, one from leaves of a field-grown aspen (Populus tremula) tree, harvested just before any visible sign of leaf senescence in the autumn, and one from young but fully expanded leaves of greenhouse-grown aspen (Populus tremula x tremuloides). Expressed sequence tags (ESTs; 5,128 and 4,841, respectively) were obtained from the two libraries. A semiautomatic method of annotation and functional classification of the ESTs, according to a modified Munich Institute of Protein Sequences classification scheme, was developed, utilizing information from three different databases. The patterns of gene expression in the two libraries were strikingly different. In the autumn leaf library, ESTs encoding metallothionein, early light-inducible proteins, and cysteine proteases were most abundant. Clones encoding other proteases and proteins involved in respiration and breakdown of lipids and pigments, as well as stress-related genes, were also well represented. We identified homologs to many known senescence-associated genes, as well as seven different genes encoding cysteine proteases, two encoding aspartic proteases, five encoding metallothioneins, and 35 additional genes that were up-regulated in autumn leaves. We also indirectly estimated the rate of plastid protein synthesis in the autumn leaves to be less that 10% of that in young leaves.
  Plant physiology 03/2003; 131(2):430-42. · 6.53 Impact Factor
• Article: A transcriptional timetable of autumn senescene

  Anders Andersson, Johanna Keskitalo, Andreas Sjodin, Rupali Bhalerao, Fredrik Sterky, Kirsten Wissel, Karolina Tandre, Henrik Aspeborg, Richard Moyle, Yasunori Ohmiya, [......], Karlsson, Jan, Joakim Lundeberg, Ove Nilsson, Göran Sandberg, Steven Strauss, Björn Sundberg, Mathias Uhlen, Stefan Jansson, Peter Nilsson
• Article: Gene Expression in Autumn Leaves

  Rupali Bhalerao, Johanna Keskitalo, Fredrik Sterky, Rikard Erlandsson, Harry Bjorkbacka, Simon Jonsson Birve, Jan Karlsson, Per Gardestrom, Petter Gustafsson, Joakim Lundeberg, Stefan Jansson
  Aspen Bibliography.
• Source

  Available from: Peter Nilsson

  Article: A transcriptional roadmap to wood formation

  M. Hertzberg, Henrik Aspeborg, Jarmo Schrader, Anders Andersson, Rikard Erlandsson, Kristina Blomqvist, Rupali Bhalerao, Mathias Uhlen, Tuula T. Teeri, Joakim Lundeberg, Bjorn Sundberg, Peter Nilsson, Goran Sandberg
  Proceedings of the National Academy of Sciences. 98(25):14732-14737.
• Article: Gene Discovery in the Wood-Forming Tissues of Poplar: Analysis of 5,692 Expressed Sequence Tags

  Fredrik Sterky, Sharon Regan, Jan Karlsson, Magnus Herzberg, Antje Rohde, Anders Holmberg, I. Bahram Amin, Rupali Bhalerao, Magnus Larsson, Raimundo Villarroel, Marc Van Montagu, Goran Sandberg, Olof Olsson, Tuula T Teeri, Wout Boerjan, Petter Bustafsson, Mathias Uhlen, Bjorn Sundberg, Joakim Lundberg
  Aspen Bibliography.