Difference between revisions of "Part:BBa K1604022"

(Usage and Biology)
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text-align:justify "><b>FIGURE 2. Loss of &#946;-carotene. NEB&#946; cells were cotransformed with BBa_K1604021 (in puC57) and BBa_ K1604020 (aracpBad-&#946; carotene). Positive control was BBa_K1604020. The cells were grown up to an OD of 0.6 and induced with 5 mM of arabinose for 24 hours. BBa_K1604022 (&#946; carotene) induced (A); cotrasformation of BBa_K1604021 and BBa_ K1604020 (B)with 5 mM arabinose (C), and with 5 mM arabinose, 5 uM FeSO4 and 10 mM of ascorbate (D); empty cells (E). Expression of blh causes the loss of the typical orange colored pellet of &#946;  carotene expressing cells. </b> </p>
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text-align:justify "><b>FIGURE 2. Loss of &#946;-carotene. NEB&#946; cells were transformed with BBa_K1604022and BBa_ K1604020 (aracpBad-&#946; carotene) for control. The cells were grown up to an OD of 0.6 and induced with 5 mM of arabinose for 24 hours. BBa_K1604020 (&#946; carotene) induced (A) and not induced (B); BBa_K1604022 not induced (C)  with 5 mM arabinose (D), and with 5 mM arabinose, 5 uM FeSO4 and 10 mM of ascorbate (E). Expression of blh causes the loss of the typical orange colored pellet of &#946;  carotene expressing cells. </b> </p>
  
  
 
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text-align:justify "><b>FIGURE 3. Extraction of &#946; carotene and retinal. NEB&#946; cells were cotransformed with BBa_K1604021 (in puC57) and BBa_ K1604020 (aracpBad-&#946; carotene). BBa_K1604020 only was used for positive control. The cells were grown in 100 mL of LB and induced as described in figure 1. After 24 hours the cells were span down and the supernatant was discarded. The pellets were incubated with 2.5 mL of acetone for 10 min at 50C. Afterward they were centrifuged to recover the extracted pigments. The samples were diluted 1:7 in acetone and the spectra were taken with UV-VIS Agilent .... equipped with a deuterium and tungsten lamps. The spectra were acquired between 300 and 800 nm and blanked with acetone. Panel A extraction in acetone of carotenoids and retinoids. Panel B UV VIS spectra: BBa_K1604020 (&#946; carotene) with arabinose Fe and ascorbate (purple), BBa_K1604020 (&#946; carotene) + BBa_K1604021 (blh) with Fe and ascorbate. </b> </p>
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text-align:justify "><b>FIGURE 3. Extraction of &#946; carotene and retinal. NEB&#946; cells were transformed with BBa_K1604020 and BBa_ K1604022  were grown in 100 mL of LB and induced as described in figure 2. After 24 hours the cells were span down and the supernatant was discarded. The pellets were incubated with 2.5 mL of acetone for 10 min at 50C. Afterward they were centrifuged to recover the extracted pigments. The samples were diluted 1:7 in acetone and the spectra were taken with UV-VIS Agilent .... equipped with a deuterium and tungsten lamps. The spectra were acquired between 300 and 800 nm and blanked with acetone. Panel A extraction in acetone of carotenoids and retinoids. Panel B UV VIS spectra: BBa_K1604020 (&#946; carotene) with arabinose, Fe and ascorbate (purple), BBa_K1604022 (blh + &#946; carotene) with Fe and ascorbate. </b> </p>
  
Our data show that there is a loss of &#946; carotene when the cells express blh. The UV_Vis analysis confirmed the loss of &#946; carotene (452 nm), but did not evidenced the presence of retinal (373 nm)For a more detailed characterization please check BBa_K1604022.
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text-align:justify "><b>FIGURE4. HPLC analysis of carotenoids and retinoids. The pigments were extracted as described before in figure 3. The samples were concentrated with N2  and methanol was added to reach a final volume of 500 uL. The sample were run on the HPLC Agilent 1100 on a Agilent Eclips XDB C8 3.5 uM (4.6  mmx150 mm) reverse phase column. Eluent used were, buffer A MeOH/H2O 7/3 + 12 mmM acetate, buffer B MeOH + 12 mmM acetate at 08 mL/min. The gradient used was 35% of buffer B up to 100% in 40 minutes. Reference with retinal and &#946; carotene (A), BBa_K1604020 (&#946; carotene) (B), BBa_K1604022 (blh).
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Our data show that there is a loss of &#946; carotene when the cells express blh. The UV_Vis analysis and the HPLC confirmed the loss of &#946; carotene when blh is being expressed, but did not evidence the presence of retinal.  We think that &#946; carotene is being cleaved to form retinal (as shown by the evident loss of color, and the absence of a peak in the HPLC or UV-VIS spectrum), and is immediately taken by the cell to enter different biochemical pathways. The biosynthesis of retinal involves the formation of intermediates molecules that could also be used by <i> E. coli</i> in different metabolic reactions.  
  
  

Revision as of 16:16, 10 September 2015

araC-pBAD + β-carotene + J23100 + blh

Device for the production of retinal


Usage and Biology

This device contains the five genes necessary for retinal biosynthesis. It contains the four genes responsible of βcarotene production (ctrEIBY) under the control of araC-pBAD. blh is under a costitutive promoter of the Anderson family (J23100) and encodes for the β-carotene 15-15'dioxygenase that catalizes the cleavege of a single molecule of β-carotene into two molecules of retinal.

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FIGURE 1. Biochemical pathway of retinal biosynthesis in uncultured SAR86 bacteria. βcarotene is produced by pahrnesyl di phospahate a colorless molecule naturally produced in E .coli. Once βcarotene is synthetized it is cleaved in two molecules of retinal by blh.


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FIGURE 2. Loss of β-carotene. NEBβ cells were transformed with BBa_K1604022and BBa_ K1604020 (aracpBad-β carotene) for control. The cells were grown up to an OD of 0.6 and induced with 5 mM of arabinose for 24 hours. BBa_K1604020 (β carotene) induced (A) and not induced (B); BBa_K1604022 not induced (C) with 5 mM arabinose (D), and with 5 mM arabinose, 5 uM FeSO4 and 10 mM of ascorbate (E). Expression of blh causes the loss of the typical orange colored pellet of β carotene expressing cells.


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FIGURE 3. Extraction of β carotene and retinal. NEBβ cells were transformed with BBa_K1604020 and BBa_ K1604022 were grown in 100 mL of LB and induced as described in figure 2. After 24 hours the cells were span down and the supernatant was discarded. The pellets were incubated with 2.5 mL of acetone for 10 min at 50C. Afterward they were centrifuged to recover the extracted pigments. The samples were diluted 1:7 in acetone and the spectra were taken with UV-VIS Agilent .... equipped with a deuterium and tungsten lamps. The spectra were acquired between 300 and 800 nm and blanked with acetone. Panel A extraction in acetone of carotenoids and retinoids. Panel B UV VIS spectra: BBa_K1604020 (β carotene) with arabinose, Fe and ascorbate (purple), BBa_K1604022 (blh + β carotene) with Fe and ascorbate.


[[]]

FIGURE4. HPLC analysis of carotenoids and retinoids. The pigments were extracted as described before in figure 3. The samples were concentrated with N2 and methanol was added to reach a final volume of 500 uL. The sample were run on the HPLC Agilent 1100 on a Agilent Eclips XDB C8 3.5 uM (4.6 mmx150 mm) reverse phase column. Eluent used were, buffer A MeOH/H2O 7/3 + 12 mmM acetate, buffer B MeOH + 12 mmM acetate at 08 mL/min. The gradient used was 35% of buffer B up to 100% in 40 minutes. Reference with retinal and β carotene (A), BBa_K1604020 (β carotene) (B), BBa_K1604022 (blh). Our data show that there is a loss of β carotene when the cells express blh. The UV_Vis analysis and the HPLC confirmed the loss of β carotene when blh is being expressed, but did not evidence the presence of retinal. We think that β carotene is being cleaved to form retinal (as shown by the evident loss of color, and the absence of a peak in the HPLC or UV-VIS spectrum), and is immediately taken by the cell to enter different biochemical pathways. The biosynthesis of retinal involves the formation of intermediates molecules that could also be used by E. coli in different metabolic reactions. Sequence and Features

Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    INCOMPATIBLE WITH RFC[12]
    Illegal NheI site found at 9
    Illegal NheI site found at 32
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal BamHI site found at 2041
    Illegal BamHI site found at 4082
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    INCOMPATIBLE WITH RFC[25]
    Illegal NgoMIV site found at 247
    Illegal NgoMIV site found at 3618
    Illegal NgoMIV site found at 3748
    Illegal AgeI site found at 1876
    Illegal AgeI site found at 2833
  • 1000
    INCOMPATIBLE WITH RFC[1000]
    Illegal SapI site found at 1858