Charakterisierung der mikrobiellen Lebensgemeinschaft eines sibirischen Permafrostbodens / Characterisation of microbial community composition of a Siberian tundra soil

Kobabe, Svenja

January 2005

Die vorliegende Arbeit wurde im Rahmen des multidisziplinären Deutsch-Russischen Verbundprojektes "Laptev See 2000" erstellt. Die dargestellten bodenkundlichen und mikro-biologischen Untersuchungen verfolgten das Ziel die mikrobielle Lebensgemeinschaft eines Permafrostbodens im sibirischen Lena Delta zu charakterisieren, wobei den methanogenen Archaea besondere Beachtung zukam.<br><br> Die Probennahme wurde im August 2001 im zentralen Lenadelta, auf der Insel Samoylov durchgeführt. Das Delta liegt im Bereich des kontinuierlichen Permafrostes, was bedeutet, dass nur eine flache saisonale Auftauschicht während der Sommermonate auftaut. Das untersuchte Bodenprofil lag im Zentrum eines für die Landschaft repräsentativen Low Center Polygons. Zum Zeitpunkt der Beprobung betrug die Auftautiefe des untersuchten Bodens 45 cm.. Der Wasserstand lag zum Untersuchungszeitpunkt 18 cm unter der Geländeoberfläche, so dass alle tiefer liegenden Horizonte durch anaerobe Verhältnisse charakterisiert waren. Die Untersuchung der bodenkundlichen Parameter ergab unter anderem eine mit zunehmender Tiefe abnehmende Konzentration von Kohlenstoff und Stickstoff, sowie eine Abnahme von Temperatur und Wurzeldichte. Um die Auswirkungen der sich mit der Tiefe verändernden Bodeneigenschaften auf die Mikroorganismen zu ermitteln, wurden die Mikroorganismenpopulationen der verschiedenen Bodentiefen mit Hilfe der Fluoreszenz in situ Hybridisierung hinsichtlich ihrer Anzahl, Aktivität und Zusammensetzung beschrieben. Für die Charakterisierung des physiologischen Profils dieser Gemeinschaften, bezüglich der von ihr umsetzbaren Kohlenstoffverbindungen, wurden BIOLOG Mikrotiterplatten unter den in situ Bedingungen angepassten Bedingungen eingesetzt.<br><br> Die sich im Profil verändernden Bodenparameter, vor allem die abnehmende Substratversorgung, die geringe Temperatur und die anaeroben Verhältnisse in den unteren Bodenschichten führten zu einer Veränderung der Mikroorganismenpopulation im Bodenprofil. So nahm von oben nach unten die Gesamtanzahl der ermittelten Mikroorganismen von 23,0 × 108 auf 1,2 × 108 Zellen g-1 ab. Gleichzeitig sank der Anteil der aktiven Zellen von 59% auf 33%. Das bedeutet, dass im Bereich von 0-5 cm 35mal mehr aktive Zellen g-1 als im Bereich von 40-45 cm gefunden wurden. Durch den Einsatz spezieller rRNS-Sonden konn-te zusätzlich eine Abnahme der Diversität mit zunehmender Bodentiefe nachgewiesen werden.<br><br> Die geringere Aktivität der Population in den unteren Horizonten sowie die Unterschiede in der Zusammensetzung wirkten sich auf den Abbau der organischen Substanz aus. So wur-den die mit Hilfe der BIOLOG Mikrotiterplatten angebotenen Substanzen in größerer Tiefe langsamer und unvollständiger abgebaut. Insbesondere in den oberen 5 cm konnten einige der angebotenen Polymere und Kohlehydrate deutlich besser als im restlichen Profil umge-setzt werden. Das außerdem unter anaeroben Versuchsbedingungen diese Substrate deutlich schlechter umgesetzt wurden, kann so interpretiert werden, dass die konstant anaeroben Bedingungen in den unteren Horizonten ein Auftreten der Arten, die diese Substrate umset-zen, erschweren.<br><br> Die in den oberen, aeroben Bodenabschnitten wesentlich höheren Zellzahlen und Aktivitäten und die dadurch schnellere C-Umsetzung führen auch zu einer besseren Substratversorgung der methanogenen Archaea in den makroskopisch aeroben Horizonten. Die erhöhte Substratverfügbarkeit erklärt die Tatsache, dass im Bereich von 0-5 cm die meisten methanogenen Archaea gefunden wurden, obwohl sich dieser Bereich zum Zeitpunkt der Probennahme oberhalb des wassergesättigten Bodenbereichs befand. Trotz der aeroben Bedingungen in, liegt im Bereich von 5 10 cm die für die methanogenen Archaea am besten geeignete Kombination aus Substratangebot und anaeroben Nischen vor. Hinzu kommt, dass in diesen Tiefen die Sommertemperaturen etwas höher liegen als in den tieferen Horizonten, was wiederum die Aktivität positiv beeinflusst. Bei zusammenfassender Betrachtung der Untersuchungsergebnisse von Anzahl, Aktivität, Zusammensetzung und Leistung der gesamten, aber im besonderen auch der methanogenen Mikroorganismenpopulation wird deutlich, dass in dem untersuchten Bodenprofil unter ökologischen Gesichtspunkten die oberen 15-20 cm den für den C-Umsatz relevantesten Bereich darstellen. Das Zusammenspiel wichtiger Bodenparameter wie Bodentemperatur, Wasserstand, Nährstoffversorgung und Durchwurzelung führt dazu, dass in dem untersuchten Tundraboden in den oberen 15-20 cm eine wesentlich größere und diversere Anzahl an Mikroorganismen existiert, die für einen schnelleren und umfassenderen Kohlenstoffumsatz in diesem Bereich des active layers sorgt. / The soil characteristics and the bacterial community of the active layer (0-45 cm) of a permafrost affected tundra soil were analysed. The composition of the bacterial community was investigated by fluorescence in situ hybridisation (FISH) while BIOLOG Ecoplates were used to characterize microbial communities by determining the ability of the communities to oxidize various carbon sources.<br><br> Arctic tundra soils contain large amounts of organic carbon, accumulated in thick soil layers and are known as a major sink of atmospheric CO2. These soils are totally frozen throughout the year and only a thin active layer is unfrozen and shows biological activity during the short summer. To improve the understanding of how the carbon fluxes in the active layer are controlled, detailed analysis of composition, functionality and interaction of soil microorganisms was done. The FISH analyses of the active layer showed large variations in absolute cell numbers and in the composition of the active microbial community between the different horizons, which is caused by the different environmental conditions (e.g. soil temperature, amount of organic matter, aeration) in this vertically structured ecosystem. Results obtained by universal protein stain 5-(4,6-dichlorotriazin-2-yl)aminofluorescein (DTAF) showed an exponential decrease of total cell counts from the top to the bottom of the active layer (2.3 × 109 to 1.2 × 108 cells per g dry soil). By using FISH, up to 59% of the DTAF-detected cells could be detected in the surface horizon, and up to 84% of these FISH-detected cells could be affiliated to a known phylogenetic group. With increasing depth the amount of FISH-detectable cells decreased as well as the diversity of ascertained phylogenetic groups. <br><br> The turnover of substrates offered on the BIOLOG Ecoplates was slower and less complete in the deeper soil horizons. Especially in the upper 5 cm the turnover of some of the polymeric substances and some carbohydrates was much better than in deeper parts of the soil.<br><br> The interaction of important soil parameters (water table, nutrient availability, roots) leads to a larger and more diverse community in the upper 20 cm of the soil, which again cause a faster and more complete turnover in this part of the active layer.

Mikrobiologie

Angewandte Mikrobiologie

Bodenmikrobiologie

Methanemission

Dauerfrostboden

Sibirien

Fluoreszenz-in-situ-Hybridisierung

Len

Microbiology, Soil, methane, Siberia

Life sciences

Characterisation of hexane-degrading microorganisms from waste gas biofilters

Friedrich, Michèle Martine

20 February 2008

Die Biofiltration kommt bei der Eliminierung einer Vielzahl von Abluftkomponenten zum Einsatz. Diese Studie konzentrierte sich auf die Mikroorganismen von zwei Biofiltern, die der Eliminierung von Hexan im Labor- und Industriemaßstab dienen. Mehr als 80 Bakterienstämme wurden aus einem industriellen Biofilter einer Ölmühle isoliert. Der Isolierungsansatz dieses Biofilters ergab 16 bakterielle Gruppen, die als Mitglieder der Proteobacteria, Actinobacteria, und Firmicutes identifiziert wurden. Die Gattungen Gordonia und Sphingomonas und Stämme des Nevskia-Zweigs zeigten hohe Wachstumserträge auf Hexan. Die aktiv am Abbau beteiligte Population im Biofiltermaterial wurde durch die Inkubation von Filtermaterial mit deuteriertem Hexan und anschließender PLFA-Analyse charakterisiert. Die signifikante Markierung der Fettsäuren 16:1 cis10, 18:1 cis9 und 18:0 10methyl betonten die Bedeutung der Gordonia-Isolate als aktive Hexanabbauer, die auch die höchsten Wachstumsraten auf Hexan zeigten. Die Markierung von Biomarkern wie 16:0 iso und 19:0 cyclo11-12 wies außerdem auf die Beteiligung weiterer Taxa beim Hexanabbau hin. Die Vertreter der Gammaproteobacteria zeigten ebenfalls gutes Wachstum auf Hexan und charakteristische Fettsäuren dieser Gruppen konnten ebenfalls markiert werden. Dies impliziert eine Beteiligung auch dieser Gruppen am Abbauprozess von Hexan. Alle Hauptfettsäuren des PLFA-Profils des Biofiltermaterials konnten markiert werden. Folglich dominierte die Hexanabbauende Population die mikrobielle Population des Biofilters. Eine polyphasische Klassifizierung der Isolate beider Biofilter wies auf neue Gattungen und Arten hin. Die Ergebnisse der Wachstumstests verdeutlichten die Wichtigkeit der Kombination von Isolierungsansätzen mit Isolierungs-unabhängigen Methoden wie den Analysen des Fettsäureprofils der Biofiltergemeinschaft.

Biofilter

Fettsäure

Fluoreszenz in situ Hybridisierung

Abluft

Hexan

Isotopenmarkierung

Deuterium

42.30 - Mikrobiologie

58.30 - Biotechnologie

32 - Biologie

ddc:620

Molekular-zytogenetische Untersuchungen und Expressionsanalysen des Multiplen Myeloms

Grandy, Isabell

05 December 2006

Durch die Kombination von SKY-, Array-CGH-, und Expressionsnanalysen wurden ausgewählte MM-Zelllinien auf Aberrationen hin untersucht und diese genauer analysiert. 32 Myelom-Patienten wurden mittels Array-CGH-Analyse untersucht und aufgrund ihrer Aberrationen und der klinischen Daten durch eine anschließende Clusteranalyse in 4 Subgruppen unterteilt.

Clusteranalyse

CD138 positive Aufreinigung

BMPR1B

GPC6

13q21.1

Cluster analysis

bead isolation

BMPR1B

GPC6

13q21.1

ddc:570

rvk:WG 7200

Cluster-Analyse

Cytogenetik

Plasmozytom

Fluoreszenz-in-situ-Hybridisierung

Untersuchung des CFL-Phänotyps ("congenital fused labia" ) in dem Neuweltaffen Common Marmoset (Callithrix jacchus) unter demographischen, physiologischen und zytogenetischen Gesichtspunkten / Investigation of demographical, physiological and cytogenetic aspects of the CFL phenotype (''cogenitally fused labia'') in the new world monkey, the common marmoset (Callithrix jacchus)

Wedi, Edris

09 August 2010

No description available.

500 Naturwissenschaften

Medicine

Callithrix jacchus

CFL-Phänotyp

Chimärismus

Fluoreszenz-in-situ-hybridisierung

Callithrix jacchus

CFL phentype

chimerism

fluorescence in situ hybridisation

42.00 Biologie: Allgemeines

WK

MHC-Klasse-I-Gene von Weißbüschelaffen (Callithrix jacchus) und deren Expression im Gehirn / Differential expression of major histocompatibility complex class I molecules in the brain of a New World monkey, the common marmoset (Callithrix jacchus)

Rölleke, Ulrike

31 October 2007

No description available.

500 Naturwissenschaften allgemein

Mathematics and Computer Science

MHC-Klasse-I

neuronale Expression

In-situ-Hybridisierung

Immunhistologie

MHC class I

neuronal expression

in situ hybridization

immunohistology

42.13

44.45

WF 200: Molekularbiologie

Molekular-zytogenetische Untersuchungen und Expressionsanalysen des Multiplen Myeloms

Grandy, Isabell

30 November 2006

Durch die Kombination von SKY-, Array-CGH-, und Expressionsnanalysen wurden ausgewählte MM-Zelllinien auf Aberrationen hin untersucht und diese genauer analysiert. 32 Myelom-Patienten wurden mittels Array-CGH-Analyse untersucht und aufgrund ihrer Aberrationen und der klinischen Daten durch eine anschließende Clusteranalyse in 4 Subgruppen unterteilt.

info:eu-repo/classification/ddc/570

ddc:570

Molecular-cytogenetic analysis of repetitive sequences in genomes of Beta species and hybrids / Molekular-cytogenetische Analyse der repetitiven Sequenzen in Genomen von Beta Arten und Hybriden

Dechyeva, Daryna

19 July 2006

The elucidation of the composition and organization of genomes of higher plants is a fundamental problem of modern molecular biology. The genus Beta containing 14 species assigned to the sections Beta, Corollinae, Nanae and Procumbentes provides a suitable system for the comparative study of the nuclear genomes. Sugar beet Beta vulgaris has a genome size of 758 Mbp DNA with estimated 63 % repetitive sequences and the number of chromosomes n=9. The wild beet Beta procumbens is an important natural pool of resistance against pests and tolerance to unfavorable growth conditions. The subject of this research was the isolation and description of new repetitive DNA families from genomes of this Beta species. This work presents the molecular investigation and cytogenetic characterization by high-resolution multicolor fluorescent in situ hybridization (FISH) of the satellite and dispersed repetitive sequences in wild and cultivated beet species and in their hybrids. New repetitive sequences were isolated from the B. procumbens genome. The AluI restriction satellite repeats pAp11 are 229-246 bp long and form subfamilies. The satellite is amplified in the section Procumbentes, but also found in distantly related section Beta. Thus, pAp11 is probably an ancient component of Beta genomes. It could be the ancestor of the satellite subfamily pEV4 in B. vulgaris based on sequence analysis, Southern hybridization and comparative FISH. pAp11 was found at centromeric and a few intercalary sites in B. procumbens and formed intercalary blocks on B. vulgaris chromosomes where it co-localized with pEV4. These remarkable differences in the chromosomal position of pAp11 between Procumbentes and Beta species indicate that both satellites were likely involved in the expansion or rearrangement of the intercalary heterochromatin of B. vulgaris. Other two sequence families characterized on molecular, genomic and chromosomal levels are the non-homologous repeats pAp4 and pAp22, 1354 and 582 bp long. They have a dispersed organization in the genome and are widely scattered along B. procumbens chromosomes. pAp4 and pAp22 are specific for the section Procumbentes and can be used as DNA probes to discriminate parental genomes in interspecific hybrids. High-resolution FISH on meiotic chromosomes showed that the both sequences mostly co-localize. The PCR analysis of their flanking regions revealed that pAp22 is a part of a Long Terminal Repeat (LTR) of an Athila-like env-class retrotransposon. This is the first indication that the retrovirus-like DNA elements exist in Beta. An ancient family of subtelomeric satellite DNA pAv34 was isolated from all four sections of the genus Beta and from spinach, a related Chenopodiaceae. Five clones were analyzed from each of the five species. The genomic organization and species distribution of the satellites were studied by sequencing and Southern hybridization. The repeating units in all families are 344-362 bp long and share 46.2-98.8 % similarity. Each monomer consists of two subunits SU1 and SU2 of 165-184 bp. The maximum likelihood and neighbor joining analyses of the 25 subtelomeric satellite monomers and their subunits indicated, that the duplication leading to the emergence of the 360 bp satellite should have occurred early in the phylogeny. The two directions of diversification are the clustering of satellites in two groups of subunits SU1 and SU2 and the arrangement of satellite repeats in section-specific groups. The comparative chromosomal localization of the telomeric repeat, pAv34 and rDNA was investigated by multicolor FISH. B. vulgaris chromosome termini showed unique physical organization of telomeric repeat and the subtelomeric satellite, as studied by high-resolution FISH on extended DNA fibers. The estimated length of the telomeric array was 0.55 - 62.65 kb, the length of pAv34 was 5.0-125.25 kb, the spacer between these sequences spanned 1.0-16.60 kb. Eight various classes of repeats were used to characterize the minichromosomes of the sugar beet fragment addition lines PRO1 and PAT2 by comparative multi-color FISH. The study allowed to propose a schematic pattern of repetitive DNA organization on the PRO1 and PAT2 minichromosomes. PRO1 has an acrocentric minichromosome, while PAT2 possesses a metacentric or submetacentric chromosome fragment. The functional integrity of the fragment addition line centromeres was confirmed by an immunostaining localization of the proteins specific to the active kinetochore. The serine 10-phosphorylated histone H3 was detected in pericentromeric regions of the PRO1 chromosomes. The microtubuli attachment sites were visualized as parts of kinetochore complexes.

repetitive DNA

plant genomes evolution

telomere

plant artificial chromosome

repetitive DNA

pflanzliche Genomevolution

Telomere

pflanzliche künstliche Chromosome

ddc:570

rvk:WG 3300

Repetitive DNS

Fluoreszenz-in-situ-Hybridisierung

Genom

Evolution

Pflanzen

Künstliches Chromosom

Molecular-cytogenetic analysis of repetitive sequences in genomes of Beta species and hybrids

Dechyeva, Daryna

07 July 2006

The elucidation of the composition and organization of genomes of higher plants is a fundamental problem of modern molecular biology. The genus Beta containing 14 species assigned to the sections Beta, Corollinae, Nanae and Procumbentes provides a suitable system for the comparative study of the nuclear genomes. Sugar beet Beta vulgaris has a genome size of 758 Mbp DNA with estimated 63 % repetitive sequences and the number of chromosomes n=9. The wild beet Beta procumbens is an important natural pool of resistance against pests and tolerance to unfavorable growth conditions. The subject of this research was the isolation and description of new repetitive DNA families from genomes of this Beta species. This work presents the molecular investigation and cytogenetic characterization by high-resolution multicolor fluorescent in situ hybridization (FISH) of the satellite and dispersed repetitive sequences in wild and cultivated beet species and in their hybrids. New repetitive sequences were isolated from the B. procumbens genome. The AluI restriction satellite repeats pAp11 are 229-246 bp long and form subfamilies. The satellite is amplified in the section Procumbentes, but also found in distantly related section Beta. Thus, pAp11 is probably an ancient component of Beta genomes. It could be the ancestor of the satellite subfamily pEV4 in B. vulgaris based on sequence analysis, Southern hybridization and comparative FISH. pAp11 was found at centromeric and a few intercalary sites in B. procumbens and formed intercalary blocks on B. vulgaris chromosomes where it co-localized with pEV4. These remarkable differences in the chromosomal position of pAp11 between Procumbentes and Beta species indicate that both satellites were likely involved in the expansion or rearrangement of the intercalary heterochromatin of B. vulgaris. Other two sequence families characterized on molecular, genomic and chromosomal levels are the non-homologous repeats pAp4 and pAp22, 1354 and 582 bp long. They have a dispersed organization in the genome and are widely scattered along B. procumbens chromosomes. pAp4 and pAp22 are specific for the section Procumbentes and can be used as DNA probes to discriminate parental genomes in interspecific hybrids. High-resolution FISH on meiotic chromosomes showed that the both sequences mostly co-localize. The PCR analysis of their flanking regions revealed that pAp22 is a part of a Long Terminal Repeat (LTR) of an Athila-like env-class retrotransposon. This is the first indication that the retrovirus-like DNA elements exist in Beta. An ancient family of subtelomeric satellite DNA pAv34 was isolated from all four sections of the genus Beta and from spinach, a related Chenopodiaceae. Five clones were analyzed from each of the five species. The genomic organization and species distribution of the satellites were studied by sequencing and Southern hybridization. The repeating units in all families are 344-362 bp long and share 46.2-98.8 % similarity. Each monomer consists of two subunits SU1 and SU2 of 165-184 bp. The maximum likelihood and neighbor joining analyses of the 25 subtelomeric satellite monomers and their subunits indicated, that the duplication leading to the emergence of the 360 bp satellite should have occurred early in the phylogeny. The two directions of diversification are the clustering of satellites in two groups of subunits SU1 and SU2 and the arrangement of satellite repeats in section-specific groups. The comparative chromosomal localization of the telomeric repeat, pAv34 and rDNA was investigated by multicolor FISH. B. vulgaris chromosome termini showed unique physical organization of telomeric repeat and the subtelomeric satellite, as studied by high-resolution FISH on extended DNA fibers. The estimated length of the telomeric array was 0.55 - 62.65 kb, the length of pAv34 was 5.0-125.25 kb, the spacer between these sequences spanned 1.0-16.60 kb. Eight various classes of repeats were used to characterize the minichromosomes of the sugar beet fragment addition lines PRO1 and PAT2 by comparative multi-color FISH. The study allowed to propose a schematic pattern of repetitive DNA organization on the PRO1 and PAT2 minichromosomes. PRO1 has an acrocentric minichromosome, while PAT2 possesses a metacentric or submetacentric chromosome fragment. The functional integrity of the fragment addition line centromeres was confirmed by an immunostaining localization of the proteins specific to the active kinetochore. The serine 10-phosphorylated histone H3 was detected in pericentromeric regions of the PRO1 chromosomes. The microtubuli attachment sites were visualized as parts of kinetochore complexes.

info:eu-repo/classification/ddc/570

ddc:570

In-vitro-Untersuchungen zu transkriptionellen und translationalen Zusammenhängen von COX2 und MUC4 im Pankreaskarzinom / Transcriptional and translational in-vitro analyses of COX2 and MUC4 in pancreatic cancer

Jo, Yong-Jun Peter

28 June 2011

No description available.

610 Medizin, Gesundheit

Medicine

COX2

MUC4

Pankreaskarzinom

Immunzytochemie

Semi-quantitative real-time PCR

Fluoreszenz-in-situ-Hybridisierung

Genexpression

Amplifikation

COX2

MUC4

Pancreatic cancer

Immunocytochemistry

Semi-quantitative real-time PCR

Fluorescence-in-situ-hybridization

Gene expression

Amplification

44

M

Patterning of stem cells during limb regeneration in Ambystoma mexicanum

Rönsch, Kathleen

22 January 2018

Axolotl uniquely generates blastema cells as a pool of progenitor/stem cells to restore an entire limb, a particular property that other organisms, such as humans, do not have. What underlies these differences? Is the main difference that cells residing at the amputation plane (in the stump) undergo reprogramming processes to re-enter the embryonic program, which allows developmental patterning to start, or are there fundamental differences? There is also a significant debate about whether regeneration occurs via stem cell differentiation or by dedifferentiation of mature limb tissue. The aim of my thesis was to address following questions: Are the cells in the blastema reprogrammed or differentiated to regenerate? Are the blastema cells genetically reactivated de novo during regeneration? How does the amputated limb exactly know which part of the limb needs to be regenerate? Using a novel technique of long-term genetic fate mapping, my team demonstrated that dedifferentiation in regenerated axolotl muscle tissue does not occur. Instead, PAX7+ satellite cells indeed play an important role during muscle regeneration in the axolotl limb. Surprisingly, this is in contrast to the newt, which regenerates muscle cells through a dedifferentiation process. Therefore, there is a fundamental difference that underlies the regenerative mechanism ((Sandoval-Guzman et al., 2014) [KR1]). This demonstrates that there is an unexpected diversity and flexibility of cellular mechanims used during limb regeneration, even among two closely related species. Finally, if one salamander species uses a mammalian regenerative strategy (Cornelison and Wold, 1997; Collins et al., 2005) involving stem cells and another uses a dedifferentiative strategy, this raises the question of whether there are other fundamental aspects of regeneration that could also be anomalous. This hypothesis is promising since there could be more than one possible mechanism to induce mammalian regeneration. The process of limb regeneration in principle seems to be more similar to those of limb development as historically assumed. We showed molecularly that embryonic players are reused during regeneration by reactivating the position- and tissue-specific developmental gene programs by using the newly isolated Twist sequences as early blastema cell markers ((Kragl et al., 2013) [KR2]). To gain insights into the molecular mechanisms of the P/D limb patterning in general, it was crucial to study the early patterning events of the resident progenitor/stem cells by using the specific blastema cell marker HoxA as a positional marker along the proximo-distal axis. Our HOXA protein analysis using high molecular and cellular resolution as well as transplantation assays demonstrated for the first time that axolotl limb blastema cells acquire their positional identity in a proximal to distal sequence. We found a hierarchy of cellular restrictions in positional identities. Amputation at the level of the upper arm showed that the blastema harbors cells, which convert to lower arm and hand. We observed ((Roensch et al., 2013) [KR3]) for the first time that intercalation- the intermediate element (lower arm) arises later from an interaction between the proximal and distal cells identities- does not occur. Intercalation, which has been an accepted model for a long time, is not the patterning mechanism underlying normal (without any manipulation) limb regeneration that is unique to axolotl. We further demonstrated, using the Hox genes as markers that positional identity is cell-type specific since their effects were confirmed to be present in the lateral plate mesoderm- derived cells of the limb. As our knowledge about limb blastemas expands concerning cell composition and molecular events controlling patterning, the similarity to development is becoming more and more clear. My work has resolved many ambiguities surrounding the molecularly identification of different types of blastema cells and how P/D limb patterning occurs during regeneration in comparison to development. It has highlighted the importance of combining high-resolution methods, such as in situ hybridizations, single-cell PCR (sc-PCR) of individual dissociated blastema cells and genetic labeling methods with grafting experiments to map cell fates in vivo. In addition to understanding the processes of regeneration, another long-term goal in the regenerative medicine field is to identify key molecules that trigger the regeneration of tissues. Recently, my colleague Takuji Sugiura (Sugiura et al., 2016) observed that an early event of blastema formation is the secretion of molecules like MLP (MARCKS-like protein), which induces wound-associated cell cycle re-entry. Such findings further increase the enthusiasm of biologists to understand the underlying principles of regeneration. By building our knowledge of the molecules and pathways that are involved in tissue regeneration, we increase the possibility of identifying a way to ‘activate’ regenerative processes in humans and thus reach the final goal of regenerative medicine, which is to use the concepts of cellular reprogramming, stem cell biology and tissue engineering to repair complex body structures.

regenerative Medizin

Axolotl

Gliedmaßen

Blastemzellen

Muskelzellen

Twist

in situ Hybridisierung

Positionsinformation

HoxA

regenerative medicine

axolotl

limb

blastema cells

temporal and spatial patterning

muscle cells

Twist

in situ hybridization

positional identity

HoxA

ddc:610

rvk:WE 2400