about
The evolution of genome size in antsThe C-value enigma in plants and animals: a review of parallels and an appeal for partnershipThe regulatory content of intergenic DNA shapes genome architectureThe endocrine dyscrasia that accompanies menopause and andropause induces aberrant cell cycle signaling that triggers re-entry of post-mitotic neurons into the cell cycle, neurodysfunction, neurodegeneration and cognitive diseaseEvolution of rapid development in spadefoot toads is unrelated to arid environmentsGenome Size and Species DiversificationEvolutionary constraints on yeast protein size.Genome size, cell size, and the evolution of enucleated erythrocytes in attenuate salamanders.Deletional bias across the three domains of life.A tongue for all seasons: extreme phenotypic flexibility in salamandrid newts.Eukaryotic evolutionary transitions are associated with extreme codon bias in functionally-related proteinsEvidence for widespread genomic methylation in the migratory locust, Locusta migratoria (Orthoptera: Acrididae).Quantitative PCR-based genome size estimation of the astigmatid mites Sarcoptes scabiei, Psoroptes ovis and Dermatophagoides pteronyssinus.Copy number variation shapes genome diversity in Arabidopsis over immediate family generational scales.The consequences of genetic drift for bacterial genome complexity.Transcriptome profile of the green odorous frog (Odorrana margaretae).Cell size and cancer: a new solution to Peto's paradox?Flow cytometry and K-mer analysis estimates of the genome sizes of Bemisia tabaci B and Q (Hemiptera: Aleyrodidae).Exon capture optimization in amphibians with large genomes.The dynamic evolutionary history of genome size in North American woodland salamanders.Incongruent patterns of local and global genome size evolution in cotton.Genome Sizes of Nine Insect Species Determined by Flow Cytometry and k-mer Analysis.Evolution and Diversity of Transposable Elements in Vertebrate Genomes.A guided tour of large genome size in animals: what we know and where we are heading.Polyploidy is genetic hence may cause non-adaptive radiations, whereas pseudopolyploidy is genomic hence may cause adaptive non-radiations.Adaptive dynamics of regulatory networks: size matters.Genome Biology and the Evolution of Cell-Size Diversity.Genome size in arthropods; different roles of phylogeny, habitat and life history in insects and crustaceansThe Genome Sizes of Ostracod Crustaceans Correlate with Body Size and Evolutionary History, but not Environment.Genome size and chromosome number in velvet worms (Onychophora).Body lice and head lice (Anoplura: Pediculidae) have the smallest genomes of any hemimetabolous insect reported to date.Variation in genome size and karyotype among closely related aphid parasitoids (Hymenoptera, Aphelinidae)Squamate hatchling size and the evolutionary causes of negative offspring size allometry.Positive and relaxed selection associated with flight evolution and loss in insect transcriptomes.Genome size variation in deep-sea amphipods.Patterns of genome size diversity in bats (order Chiroptera).Genome size and ploidy of Thysanoptera.Large genomes among caridean shrimp.Cephalic muscle development in the Australian lungfish, Neoceratodus forsteri.Nuclear DNA content correlates with depth, body size, and diversification rate in amphipod crustaceans from ancient Lake Baikal, Russia.
P2860
Q21283864-4285C58F-3810-4346-8489-255ED253B251Q22066092-E7A9256C-1710-46F5-95D5-4092289DA43FQ24791593-7766B6F2-40AB-456E-8A20-DAC1ADF81FE8Q26799258-445EA241-D7CE-4F1E-AE4D-7B8C96249DEEQ28657890-BA86503E-D9CD-4497-A30A-4CFB6BC365C5Q28742138-D58AA048-F8BC-4636-94A0-A1E54701CEF3Q33254069-20C58A41-5EE8-41FC-9251-029F0421275DQ33323107-988074AA-CB3B-4EA7-AC72-DB29BA6F27F4Q33633504-93580B20-27EF-4681-B2EB-26F4E4E0841FQ33683073-EB2815DD-BC36-403D-89CC-EF7F8BEB999DQ34038357-C6ED2B2E-BADD-4635-906C-3918F3215F31Q34097797-5F4ECEE5-2310-4525-ABDC-807D097235E4Q34244168-27F39662-78E4-42F1-8F21-600D209F0543Q34382755-AE604DC2-61FC-49B0-AC4A-A8BED2C471C5Q34985390-2DD27B61-B068-464A-B357-16D69F5EF55EQ35000849-7AD72BEC-62CD-4667-97D6-D72D717A155AQ35026956-26AD5E31-6710-48E3-8770-2A4E8F2491F4Q35621141-845B21F4-CCB5-40D8-A8D8-4A179911AF7AQ36028953-4C0351B6-6BCC-47F9-BE8D-A347E33D90EBQ36259574-D46D30D5-50AC-4397-817C-83A608296E65Q37389086-EFEF7349-5BFF-4C24-BC34-76C50D68CE5EQ37433823-109CE96F-F289-4374-B251-F9A92DA2B83BQ37738607-6BEEC202-1665-44D9-A0AC-6823B6D93799Q37951390-D7C7802A-A5C8-47CD-B3FC-3BF7E9DF16EAQ38110530-5E58DF02-1395-4686-A268-C54F82A41458Q38378680-6BDA8430-783A-44C6-9C55-A0CFC2E247A8Q38562840-9D227C19-C4EA-4E06-95BC-1E5180356167Q38622812-7DD1E953-F319-4D72-AAF7-C7757111F3E7Q38673190-0D49C864-47C3-41AB-8DA8-68BCA069247FQ39487869-A41BD5B2-B035-460C-B0A2-24F66D4BFA22Q40433314-6F8AA6FE-4784-4598-84DF-53A1C41F2DAAQ41043770-CF42F002-9F74-4110-B4C0-7A4C859BCE51Q41627474-BF6510F0-DC5D-4563-907D-6D509334F1BFQ42271293-6AB80F49-EC5B-44BF-9A5D-15A52F239EA2Q42281825-33F4DF64-8857-4BAC-A80B-93552CC299E4Q42447345-07B6CF1B-590C-446E-9691-26738827435DQ44400253-0D64F628-D6EB-463A-8D55-B7CDF9E52EF0Q44975828-6C9C255F-715C-4E34-B352-FBCA99DEF2ABQ46246228-EAE17F97-C36C-476F-8F28-49C4E50B3646Q46421120-6F2409CD-2204-40F0-9B71-A0784DF0F89B
P2860
description
2002 nî lūn-bûn
@nan
2002 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Genome size and developmental complexity.
@ast
Genome size and developmental complexity.
@en
Genome size and developmental complexity.
@nl
type
label
Genome size and developmental complexity.
@ast
Genome size and developmental complexity.
@en
Genome size and developmental complexity.
@nl
prefLabel
Genome size and developmental complexity.
@ast
Genome size and developmental complexity.
@en
Genome size and developmental complexity.
@nl
P356
P1433
P1476
Genome size and developmental complexity.
@en
P2093
T Ryan Gregory
P2888
P304
P356
10.1023/A:1016032400147
P407
P577
2002-05-01T00:00:00Z
P6179
1035286119