Papers by Alessandro Minelli
The Bulletin of zoological nomenclature, Mar 1, 2009
BioOne sees sustainable scholarly publishing as an inherently collaborative enterprise connecting... more BioOne sees sustainable scholarly publishing as an inherently collaborative enterprise connecting authors, nonprofit publishers, academic institutions, research libraries, and research funders in the common goal of maximizing access to critical research.
Azafea: Revista de Filosofía, Dec 1, 2017
Galls are produced by the interaction between a plant and a different kind of organism, commonly ... more Galls are produced by the interaction between a plant and a different kind of organism, commonly an insect. Many galls, especially those involving an insect, have a very specific and often complex shape, comparable to the specific and often complex shape of organisms capable of reproduction. Galls, however, do not reproduce-each individual gall takes origin from a new interaction between the plant and the external agent. To some extent, the same applies to lichens: the specific and sometimes complex structure of their thallus may have transgenerational continuity through fragmentation or another kind of vegetative reproduction, but gets completely disrupted by sexual reproduction, following which a new lichen is reconstructed by a newly established symbiosis between a fungus and an algal partner. How far is their form constrained by the structure of the two partners? How can natural selection act on their form?
The Bulletin of zoological nomenclature, 2007
Azafea: revista de filosofía, 2017
Galls are produced by the interaction between a plant and a different kind of organism, commonly ... more Galls are produced by the interaction between a plant and a different kind of organism, commonly an insect. Many galls, especially those involving an insect, have a very specific and often complex shape, comparable to the specific and often complex shape of organisms capable of reproduction. Galls, however, do not reproduce-each individual gall takes origin from a new interaction between the plant and the external agent. To some extent, the same applies to lichens: the specific and sometimes complex structure of their thallus may have transgenerational continuity through fragmentation or another kind of vegetative reproduction, but gets completely disrupted by sexual reproduction, following which a new lichen is reconstructed by a newly established symbiosis between a fungus and an algal partner. How far is their form constrained by the structure of the two partners? How can natural selection act on their form?
BRILL eBooks, 2011
Preface 1 Diplopoda - An outline of research history, by Alessandro MINELLI 2 Diplopoda - General... more Preface 1 Diplopoda - An outline of research history, by Alessandro MINELLI 2 Diplopoda - General morphology, by Markus KOCH 3 Diplopoda - Integument, by Slobodan E. MAKAROV 4 Diplopoda - Skeletomuscular system and locomotion, by Markus KOCH 5 Diplopoda - Digestive system, by Carmem Silvia FONTANETTI, Cristina MOREIRA-DE-SOUSA, Tamaris GIMENEZ PINHEIRO, Raphael BASTAO DE SOUZA & Annelise FRANCISCO 6 Diplopoda - Tracheal system, by Gero HILKEN, Andy SOMBKE, Carsten H. G. MULLER & Jorg ROSENBERG 7 Diplopoda - Circulatory system, by Christian S. WIRKNER & Willi E. R. XYLANDER 8 Diplopoda - Nervous and neuroendocrine systems, by Andy SOMBKE & Jorg ROSENBERG 9 Diplopoda - Sensory organs, by Carsten H.G. MULLER & Andy SOMBKE 10 Diplopoda - Reproduction, by Alessandro MINELLI & Peter MICHALIK 11 Diplopoda - Development, by Alessandro MINELLI 12 Diplopoda - Ecology, by Jean-Francois DAVID 13 Diplopoda - Geographical distribution, by Henrik ENGHOFF 14 Diplopoda - Fossils, by Gregory D. EDGECOMBE 15 Diplopoda - Phylogenetic relationships, by Gregory D. EDGECOMBE 16 Diplopoda - Taxonomic overview, by Henrik ENGHOFF, Sergei GOLOVATCH, Megan SHORT, Pavel STOEV & Thomas WESENER Class DIPLOPODA Subclass Penicillata Order Polyxenida Subclass CHILOGNATHA Infraclass PENTAZONIA Superorder LIMACOMORPHA Order Glomeridesmida Superorder ONISCOMORPHA Order Sphaerotheriida Order Glomerida Infraclass HELMINTHOMORPHA Subterclass COLOBOGNATHA Order Platydesmida Order Siphonocryptida Order Siphonophorida Order Polyzoniida Subterclass EUGNATHA Superorder MEROCHAETA Order Polydesmida Superorder NEMATOPHORA Order Chordeumatida Order Callipodida Order Stemmiulida Superorder JULIFORMIA Order Julida Order Spirostreptida Order Spirobolida Helminthomorpha incertae sedis Order Siphoniulida Taxonomic index Subject index
Fragmenta entomologica, Feb 25, 1976
Rivista di filosofia, 2018
Risposte alle osservazioni critiche mosse da Telmo Pievani alla rubrica "Sic et non: Quanto ... more Risposte alle osservazioni critiche mosse da Telmo Pievani alla rubrica "Sic et non: Quanto ha ancora ragione?" curata da Antonello La Vergata per la "Rivista di filosofia
Biogeographia – The Journal of Integrative Biogeography, 1989
Biogeographia – The Journal of Integrative Biogeography, 1974
Biogeographia – The Journal of Integrative Biogeography, 1982
Oxford University Press eBooks, Dec 18, 2008
Current Biology, Mar 1, 2022
Variability in segment numbers in the world's most-leggy millipede adds support to a multipli... more Variability in segment numbers in the world's most-leggy millipede adds support to a multiplicative mode of segment generation in myriapods.
CRC Press eBooks, Apr 27, 2021
Gene Descrip/on Monocyte FPR1 formyl pep2de receptor 1 /// formyl pep2de receptor 1 CSTA cysta2n ... more Gene Descrip/on Monocyte FPR1 formyl pep2de receptor 1 /// formyl pep2de receptor 1 CSTA cysta2n A (stefin A) MNDA myeloid cell nuclear differen2a2on an2gen /// myeloid cell nuclear differen2a2on an2gen RNF130 ring finger protein 130 S100A8 S100 calcium binding protein A8 (calgranulin A) IFI30 interferon, gamma-‐inducible protein 30 MEGF9 mul2ple EGF-‐like-‐domains 9 LST1 leukocyte specific transcript 1 CEBPB CCAAT/enhancer binding protein (C/EBP), beta SLC7A7 solute carrier family 7 (ca2onic amino acid transporter, y+ system), member 7 PPT1 palmitoyl-‐protein thioesterase 1 (ceroid-‐lipofuscinosis, neuronal 1, infan2le) CRISPLD2 cysteine-‐rich secretory protein LCCL domain containing 2 TKT transketolase (Wernicke-‐Korsakoff syndrome) FLJ22662 hypothe2cal protein FLJ22662 CD1D CD1d molecule /// CD1d molecule LGALS1 lec2n, galactoside-‐binding, soluble, 1 (galec2n 1) CD163 CD163 molecule RAB31 RAB31, member RAS oncogene family HSPA1A heat shock 70kDa protein 1A LILRA2 leukocyte immunoglobulin-‐like receptor, subfamily A (with TM domain), member 2 FGL2 fibrinogen-‐like 2 CTSB cathepsin B SEPX1 selenoprotein X, 1 MYD88 myeloid differen2a2on primary response gene (88) LMO2 LIM domain only 2 (rhombo2n-‐like 1) Dencri2c Cell LOC651629 similar to Ig kappa chain V-‐I region Walker precursor ITM2C integral membrane protein 2C /// integral membrane protein 2C IL1B interleukin 1, beta ALOX5AP arachidonate 5-‐lipoxygenase-‐ac2va2ng protein IGKC Immunoglobulin kappa constant GAS6 growth arrest-‐specific 6 CSF2RB colony s2mula2ng factor 2 receptor, beta, low-‐affinity (granulocyte-‐macrophage) /// colony s2mula2ng factor 2 receptor, beta, low-‐affinity (granulocyte-‐macrophage) TXNDC5 thioredoxin domain containing 5 /// thioredoxin domain containing 5 PACAP proapopto2c caspase adaptor protein IGKC /// IGKV1-‐5 immunoglobulin kappa constant /// immunoglobulin kappa variable 1-‐5 HYOU1 hypoxia up-‐regulated 1 IGHA1 /// IGHA2 immunoglobulin heavy constant alpha 1 /// immunoglobulin heavy constant alpha 2 (A2m marker) LEPREL1 leprecan-‐like 1 HLA-‐DQA1 /// HLA-‐DQA2 /// LOC650946 major histocompa2bility complex, class II, DQ alpha 1 /// major histocompa2bility complex, class II, DQ alpha 2 /// similar to HLA class II histocompa2bility an2gen, DQ(1) alpha chain precursor (DC-‐ 4 alpha chain) gamma1 heavy chain CUEDC1 CUE domain containing 1 C20ORF103 chromosome 20 open reading frame 103 TNFRSF21 tumor necrosis factor receptor superfamily, member 21 MAN2B1 mannosidase, alpha, class 2B, member 1 BLNK B-‐cell linker HLA-‐DRB4 major histocompa2bility complex, class II, DR beta 4 IRF4 interferon regulatory factor 4 IGLC1 immunoglobulin lambda constant 1 (Mcg marker) HLA-‐DPA1 major histocompa2bility complex, class II, DP alpha 1 LOC652745 similar to Ig kappa chain V-‐I region Walker precursor
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Papers by Alessandro Minelli