ORIGINAL_ARTICLE
Cloning and expression analysis of Arabidopsis TRR14 gene under salt and drought stress
TRR14 is a novel protein important in trehalose (α-D-glucosyl-[1,1]-α-D-glucopyranoside) signaling in Arabidopsis. In this research, we provided evidences to demonstrate that TRR14 plays role in Arabidopsis responses to salt and drought stress.
The transgenic Arabidopsis plants over-expressing TRR14 under the control of CaMV 35S promoter were generated. Transformed lines showed higher transcript levels of TRR14 than that of Wild Type (WT) Arabidopsis plants. The RT-PCR results showed that TRR14 transcript level increased markedly by salt and drought stress both in WT and transformed lines. Further experiments indicated that the TRR14 transformed lines have unchanged seed germination, root length and chlorophyll content under stress conditions. In addition activity of oxidative enzymes like peroxidase and catalase were significantly induced in tranformed lines under salt and drought treatments. Thus, the present data indicate that a novel protein, TRR14, is involved in plant salt and drought tolerance.
https://jcmr.um.ac.ir/article_26371_255b46fee8b9cd16e85b257573e65a71.pdf
2012-06-01
1
10
10.22067/jcmr.v4i1.12269
TRR14
over-expression
Arabidopsis
Salt
drought
Mahnaz
Aghdasi
aghdasi46@yahoo.com
1
LEAD_AUTHOR
Fariba
Fazli
f.fazli@yahoo.com
2
AUTHOR
Mohammad Bagher
Bagherieh
3
AUTHOR
ORIGINAL_ARTICLE
Organotypic brain slice culture promotes the transformation of haemopoietic
The exact developmental origin of microglia is still under debate. In the present study we investigated which
heamatopoietic tissues and which features of the organotypic brain slice culture promoted microglia
ramification. The potential of cells derived from embryonic yolk sac, embryonic aorta-gonad-mesonephros and
adult blood monocytes was examined. These tissues were co-cultured with brain slices after the brain slices
had first been maintained in vitro for 1 day, 5 days and 9 days. When brain slices had been maintained in
culture for 1 day before the donor cells were added, the donor cells took several days to ramify. However,
when donor tissues were added to brain slices that had been 5 or 9 days maintained in culture, the donor cells
exhibited a ramified morphology within a day. Therefore changes in organotypic brain slices had an effect on
the transformation of cells to the microglial morphology. When adult blood monocytes were added to brain
slice cultures there was no evidence of any tendency to ramify over 6 days of co-culture. This study did not
support the suggestion that microglia cells derive from bone-marrow (BM) cells or from circulating
monocytes.
https://jcmr.um.ac.ir/article_26408_9305553473f9353265dad98c669c7658.pdf
2012-06-01
11
17
10.22067/jcmr.v4i1.18246
Microgli
Macrophage
phagocyte
GFP
CSFE
In vitro
Organotypic brain slices culture
Roya
Lari
royalari@gmail.com
1
LEAD_AUTHOR
Jameel A.
Khan
2
AUTHOR
Peter D.
Kitchener
3
AUTHOR
ORIGINAL_ARTICLE
Critical and synergy nodes in insulin-EGF signaling network
Signaling pathways are not isolated from their surroundings. They are also intervened by other signaling pathways known as “crosstalk mechanism”. One of the most important crosstalk mechanisms is the insulinEGF network. Although insulin and epidermal growth factor (EGF) networks have some complexity in their isolated forms, their complexities will grow in the crosstalk network. In this study, we used the analytical tools of the systems biology workbench for elucidating some ambiguities of the insulin-EGF crosstalk. Based on sensitivity analysis, we reconstructed an elucidated model with 51 chemical reactions in comparison with the previous model with 111 chemical reactions. Interestingly, this reduced model reproduces the results of the original model in synergy conditions. We noticed two controlling pathways with direct participation of phosphorylated insulin and EGF receptors that involve Insulin Receptor Substrate (IRS) and Src kinase modules. Also, insulin pathway by producing phosphatidylinositol-3, 4, 5-triphosphate (PIP3), and EGF pathway by activation of GAB1, control the downstream events and lead to potentialities in the mitogenic signal. Surprisingly, Shc and phosphatase SHP2-dependent reactions have no significant roles in the synergy conditions and are not involved in the reduced model. Regarding sensitivity analysis, all Ras/ERK cascade reactions are crucial for signal transduction and were kept in the reduced model.
https://jcmr.um.ac.ir/article_26446_31425d7c6e8e31d640a91689a1a84330.pdf
2012-06-01
18
27
10.22067/jcmr.v4i1.10642
Signaling pathways
crosstalk
Computational modeling
Systems biology, insulin-EGF networks, sensitivity analysis, targeted drug therapy
Hassan
Monhemia
h_monhemi_chem@ymail.com
1
LEAD_AUTHOR
Mohammad Reza
Hosseindokht
2
AUTHOR
Mohammareza
Bozorgmehr
3
AUTHOR
Ahmad Reza
Bahrami
ar-bahrami@um.ac.ir
4
AUTHOR
ORIGINAL_ARTICLE
Spatial and seasonal variations of Acidobacteria / Actinobacteria collected from soils of Alpine
Bacteria play a major role in environmental processes. However, the spatial and seasonal variations and environmental impact factors on different bacterial groups have been poorly studied. In the present study, we compared the spatial and seasonal variations of two bacterial groups (Acidobacteria, Actinobacteria) from Early Snow Melt and Late Snow Melt locations in Alpine tundra. The results revealed that pH is the essential factor for structuration of two bacterial groups. The pattern of Acidobacteria is very similar to the overall bacterial communities in our previous study, while both bacterial communities are highly influenced by seasonal variations with an independent pattern.
https://jcmr.um.ac.ir/article_26481_c0fb2f9d1085e9cf5c1590cf9ba63ea5.pdf
2012-06-01
28
33
10.22067/jcmr.v4i1.12250
alpine soil
Single Strand Conformation Polymorphism (SSCP)
Acidobacteria
Actinobacteria
pH
Bahar
Shahnavaz
shahnavaz@um.ac.ir
1
Ferdowsi University of Mashhad, Mashhad, Iran
LEAD_AUTHOR
Roberto A.
Geremia
2
AUTHOR
ORIGINAL_ARTICLE
Deletion mutagenesis in the streptomycin biosynthesis regulatory gene (strR ) isolated from Iranian Streptomyces griseus PTCC1127 and cloning of the new construct in E. coli
Objectives: StrR is a putative pathway specific regulator of streptomycin production in Streptomyces griseus. Because of finding new spo0j domain in strR by bioinformatics methods, the purpose of this study was to suggest another role for strR gene. This domain can be seen in proteins that are involved in initiation of sporulation and normal chromosome partitioning. So, 51 bps of strR in accordance to spo0j domain was deleted to investigate effects of deletion mutation in StrR functions. A unique specific procedure, including three consecutive PCRs known as SOEing PCR has been correctly used for site directed mutagenesis. Application and feasibility of this PCR was studied here.
Materials and Methods: Bioinformatics studies were carried out for comparison of the sequences similarities between StrR and Spo0J proteins. A unique specific procedure, including three consecutive PCRs, was design here in order to delete a 51 bp from the native strR. Other PCRs such as Semi-Nested PCR and RFLP PCR were used for strR isolation and structural confirmation of the isolated strR and deleted strR genes. Routine genetic engineering procedures were conducted in order to clone the native and deleted strR genes into E. coli.
Results: Obtained sequence information, from Conserved Domains Database (CDD) and Clustal W program, has revealed that the StrR is similar to members of ParB family. Here, the strR was initially isolated from Iranian strain of S. griseus (PTCC1127). It was then confirmed as StrR by Semi-Nested PCR and RFLP-PCR. A 51 base pair region of strR gene was deleted by specifically designed overlapped primers. A ten nucleotide overlap region was considered for a set of these primers. The recombinant cassette pSPMstrRΔ17 was constructed and cloned in E. coli.
Conclusion: The sequencing results showed that a specific deletion is produced in the desired site and region in the strR gene. Therefore the designed three steps PCRs (known as SOing PCR) is a very rapid, cheap and precise method for introducing such a deletion in any preferred gene.
https://jcmr.um.ac.ir/article_26497_522785e00190fb031b0d724a673281a8.pdf
2012-06-01
34
42
10.22067/jcmr.v4i1.13704
Deletion mutation
SOEing PCR
StrR protein
Streptomyces griseus
ParB nuclease
Somayeh
Panahi Moghadam
panahimoghadam@yahoo.com
1
Isfahan University, Isfahan, Iran
AUTHOR
Zohreh
Hojati
z.hojati@sci.ui.ac.ir
2
Isfahan University, Isfahan, Iran
LEAD_AUTHOR
Majid
Motovali_Bashi
mbashi@sci.ui.ac.ir
3
Isfahan University, Isfahan, Iran
AUTHOR
ORIGINAL_ARTICLE
The role of over expression of P5CS gene on proline, catalase, ascorbate peroxidase activity and lipid peroxidation of transgenic tobacco (Nicotiana tabacum L.) plant under in vitro drought stress
In this study proline content and activity of catalase (CAT), and ascorbate peroxidase (APX) and level of lipid peroxidation in terms of malondialdehyde (MDA) content were measured in transgenic tobacco (Nicotiana tabacum cv. Wisconsin), over expressing a Δ-1-pyrroline-5-carboxylate synthase (P5CS) gene, and non transgenic plants as control. Drought stress was applied using polyethylene glycol (PEG) 6000 at concentrations of 217, 264, 320, 637, 1292 mmol/kg equal to (0, 5, 10, 20, 30% respectively). Proline content, especially in transgenic plants, was increased in leaves and roots significantly. CAT and APX activities increased under drought stress and the highest activity was observed in 10 and 20% of the PEG treatment. MDA content was increased by increasing of PEG and the highest MDA content was revealed in transgenic and non transgenic plants at 20% and 30%, respectively. Our results suggest that P5CS is an inducible gene and over production of proline and induction of CAT and APX activities are involved in drought tolerance mechanism.
https://jcmr.um.ac.ir/article_26542_3e1605491b366cc607fc0ac8f46a6812.pdf
2012-06-01
43
49
10.22067/jcmr.v4i1.18249
Tobacco
Drought stress
Proline
Catalase
Ascorbate peroxidase, P5CS gene
Ali Akbar
Ehsanpour
ehsanpou@yahoo.com
1
LEAD_AUTHOR
Somayyeh
Zarei
2
AUTHOR
Jalil
Abbaspour
3
AUTHOR