|1.||Pohnert, Georg: 2 articles (04/2013 - 10/2002)|
|2.||Bräutigam, Maximilian: 1 article (04/2013)|
|3.||Popp, Juergen: 1 article (04/2013)|
|4.||Dietzek, Benjamin: 1 article (04/2013)|
|5.||Weissflog, Ina A: 1 article (04/2013)|
|6.||Grosser, Katharina: 1 article (04/2013)|
|7.||Jung, Verena: 1 article (10/2002)|
|8.||Thibaut, Thierry: 1 article (10/2002)|
|9.||Meinesz, Alexandre: 1 article (10/2002)|
|10.||Barbier, P: 1 article (12/2001)|
|1.||Wounds and Injuries (Trauma)
04/15/2013 - "Moreover, various caulerpenyne derivatives could be identified spectroscopically, and this has led to a mechanistic proposal for the internal and the external wound plug formation."
10/01/2002 - "The speed and mechanism of the wound-activated transformation, as well as the caulerpenyne content in intact tissue of invasive and noninvasive Caulerpa spp., are comparable. "
10/01/2002 - "Comparison of the wound-activated transformation of caulerpenyne by invasive and noninvasive Caulerpa species of the Mediterranean."
04/15/2013 - "This study demonstrates the suitability of FT-Raman spectroscopy for the noninvasive in vivo determination of caulerpenyne and its derivatives, as well as β-carotene, from signals with special spectral features within the wound plug and the adjacent intact alga tissue, with a resolution of 100 μm. "
04/15/2013 - "The main metabolites of the wound plug were identified as proteins, caulerpenyne derivatives, and sulfated polysaccharides. "
|2.||Proteins (Proteins, Gene)