Young Jin Lee scite author profile

Although three-dimensional (3D) bioprinting technology has gained much attention in the field of tissue engineering, there are still several significant engineering challenges to overcome, including lack of bioink with biocompatibility and printability. Here, we show a bioink created from silk fibroin (SF) for digital light processing (DLP) 3D bioprinting in tissue engineering applications. The SF-based bioink (Sil-MA) was produced by a methacrylation process using glycidyl methacrylate (GMA) during the fabrication of SF solution. The mechanical and rheological properties of Sil-MA hydrogel proved to be outstanding in experimental testing and can be modulated by varying the Sil-MA contents. This Sil-MA bioink allowed us to build highly complex organ structures, including the heart, vessel, brain, trachea and ear with excellent structural stability and reliable biocompatibility. Sil-MA bioink is well-suited for use in DLP printing process and could be applied to tissue and organ engineering depending on the specific biological requirements.

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FLOWERING LOCUS T Protein May Act as the Long-Distance Florigenic Signal in the Cucurbits

Lin

Bélanger²,

Lee

et al. 2007

436

392

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Cucurbita moschata, a cucurbit species responsive to inductive short-day (SD) photoperiods, and Zucchini yellow mosaic virus (ZYMV) were used to test whether long-distance movement of FLOWERING LOCUS T (FT) mRNA or FT is required for floral induction. Ectopic expression of FT by ZYMV was highly effective in mediating floral induction of long-day (LD)-treated plants. Moreover, the infection zone of ZYMV was far removed from floral meristems, suggesting that FT transcripts do not function as the florigenic signal in this system. Heterografting demonstrated efficient transmission of a florigenic signal from flowering Cucurbita maxima stocks to LD-grown C. moschata scions. Real-time RT-PCR performed on phloem sap collected from C. maxima stocks detected no FT transcripts, whereas mass spectrometry of phloem sap proteins revealed the presence of Cm-FTL1 and Cm-FTL2. Importantly, studies on LD-and SD-treated C. moschata plants established that Cmo-FTL1 and Cmo-FTL2 are regulated by photoperiod at the level of movement into the phloem and not by transcription. Finally, mass spectrometry of florally induced heterografted C. moschata scions revealed that C. maxima FT, but not FT mRNA, crossed the graft union in the phloem translocation stream. Collectively, these studies are consistent with FT functioning as a component of the florigenic signaling system in the cucurbits.

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Analysis of the Pumpkin Phloem Proteome Provides Insights into Angiosperm Sieve Tube Function

Lin

Lee

Lough³

et al. 2009

Molecular & Cellular Proteomics

198

262

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Increasing evidence suggests that proteins present in the angiosperm sieve tube system play an important role in the long distance signaling system of plants. To identify the nature of these putatively non-cell-autonomous proteins, we adopted a large scale proteomics approach to analyze pumpkin phloem exudates. Phloem proteins were fractionated by fast protein liquid chromatography using both anion and cation exchange columns and then either in-solution or in-gel digested following further separation by SDS-PAGE. A total of 345 LC-MS/MS data sets were analyzed using a combination of Mascot and X!Tandem against the NCBI non-redundant green plant database and an extensive Cucurbit maxima expressed sequence tag database. In this analysis, 1,209 different consensi were obtained of which 1,121 could be annotated from GenBank TM and BLAST search analyses against three plant species, Arabidopsis thaliana, rice (Oryza sativa), and poplar (Populus trichocarpa). Gene ontology (GO) enrichment analyses identified sets of phloem proteins that function in RNA binding, mRNA translation, ubiquitinmediated proteolysis, and macromolecular and vesicle trafficking. Our findings indicate that protein synthesis and turnover, processes that were thought to be absent in enucleate sieve elements, likely occur within the angiosperm phloem translocation stream. In addition, our GO analysis identified a set of phloem proteins that are associated with the GO term "embryonic development ending in seed dormancy"; this finding raises the intriguing question as to whether the phloem may exert some level of control over seed development. The universal significance of the phloem proteome was highlighted by conservation of the phloem proteome in species as diverse as monocots (rice), eudicots (Arabidopsis and pumpkin), and trees (poplar). These results are discussed from the perspective of the role played by the phloem proteome as an integral component of the whole plant communication system.

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Structural Transitions of Electrosprayed Ubiquitin Ions Stored in an Ion Trap over ∼10 ms to 30 s

et al. 2002

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Structural transitions of the +6 to +8 charge states of ubiquitin produced by electrospray ionization have been studied in the gas phase by a new ion trap/ion mobility-mass spectrometry technique. The approach allows transitions to be examined in detail over ∼10 ms to 30 s trapping times. This time regime is intermediate between the ∼1 to 5 ms time scales of previous mobility measurements [J. Am. Soc. Mass Spectrom. 1997, 8, 954] and minute to hour time scale measurements associated with trapping experiments done in a Fourier transform mass spectrometer [Int. J. Mass Spectrom. 1999, 185/186/187, 565]. The results show that over the entire time range, the +6 charge state is dominated by compact structures (with cross sections that are near the value expected for folded states in solution). The +7 state shows evidence for at least two types of initial compact structures. One state (∼65% of the population) rapidly unfolds to partially folded and elongated conformers after ∼30 to 40 ms. The remaining 35% of ions also unfolds at a much slower rate. The +8 charge state appears to be formed initially in a range of partially folded states. These states rapidly unfold into elongated structures that persist to the longest trapping times that are employed. These results are compared with the longer time scale measurements, and attempts are made to correlate the features observed in the different experiments. † Part of the special issue "Jack Beauchamp Festschrift".

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Use of mass spectrometry for imaging metabolites in plants

et al. 2012

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SUMMARYWe discuss and illustrate recent advances that have been made to image the distribution of metabolites among cells and tissues of plants using different mass spectrometry technologies. These technologies include matrixassisted laser desorption ionization, desorption electrospray ionization, and secondary ion mass spectrometry. These are relatively new technological applications of mass spectrometry and they are providing highly spatially resolved data concerning the cellular distribution of metabolites. We discuss the advantages and limitations of each of these mass spectrometric methods, and provide a description of the technical barriers that are currently limiting the technology to the level of single-cell resolution. However, we anticipate that advances in the next few years will increase the resolving power of the technology to provide unprecedented data on the distribution of metabolites at the subcellular level, which will increase our ability to decipher new knowledge concerning the spatial organization of metabolic processes in plants.

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Young Jin Lee

Precisely printable and biocompatible silk fibroin bioink for digital light processing 3D printing

FLOWERING LOCUS T Protein May Act as the Long-Distance Florigenic Signal in the Cucurbits

Analysis of the Pumpkin Phloem Proteome Provides Insights into Angiosperm Sieve Tube Function

Structural Transitions of Electrosprayed Ubiquitin Ions Stored in an Ion Trap over ∼10 ms to 30 s

Use of mass spectrometry for imaging metabolites in plants

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