scholarly journals The molecular correlates of organ loss: the case of insect Malpighian tubules

2015 ◽  
Vol 11 (5) ◽  
pp. 20150154 ◽  
Author(s):  
Xiangfeng Jing ◽  
Thomas A. White ◽  
Xiaowei Yang ◽  
Angela E. Douglas
Keyword(s):  
Amino Acid ◽  
Amino Acid Metabolism ◽  
Essential Role ◽  
Acyrthosiphon Pisum ◽  
Acid Metabolism ◽  
Malpighian Tubule ◽  
Malpighian Tubules ◽  
Pea Aphid ◽  
Whole Genome ◽  
Central Importance

Malpighian tubules play an essential role in excretion, osmoregulation and immunity of most insects. Exceptionally, aphids lack Malpighian tubules, providing the opportunity to investigate the fate of genes expressed in an organ that has undergone evolutionary reduction and loss. Making use of the sequenced genomes of Drosophila melanogaster and the pea aphid Acyrthosiphon pisum , we demonstrated that more than 50% of Drosophila genes expressed specifically in the Malpighian tubules had orthologues in the pea aphid genome and that most of the pea aphid orthologues with detectable expression were identified in the gut transcriptome. Relative to the whole genome, genes functioning in amino acid metabolism are significantly over-represented among the pea aphid orthologues of Malpighian tubule genes, likely reflecting the central importance of amino acid acquisition and metabolism in aphids. This study demonstrates that the evolutionary loss of a key insect organ, the Malpighian tubules, has not been associated with the coupled loss of molecular functions.

Amino-Acid Metabolism in Locust Tissues

1957 ◽  
Vol 34 (2) ◽  
pp. 276-289
Author(s):  
B. A. KILBY ◽  
ELISABETH NEVILLE
Keyword(s):  
Amino Acid ◽  
Amino Acid Metabolism ◽  
Acid Metabolism ◽  
Schistocerca Gregaria ◽  
Fat Body ◽  
Malpighian Tubule ◽  
Malpighian Tubules ◽  
Acid Oxidase ◽  
Amino Acid Oxidase ◽  
Mitochondrial Fractions

1. Homogenates of fat-body of Schistocerca gregaria Forsk. were shown to catalyse transamination reactions between α-ketoglutarate and numerous α-amino acids. The aspartate/glutamate and alanine/glutamate transaminases were the most active. They were present in both the ‘soluble’ and the mitochondrial fractions of fat-body cells and also in Malpighian tubules and mid-gut wall. The other transaminases in the fat-body were confined to the mitochondrial fraction. 2. Fat-body, Malpighian tubule and mid-gut wall homogenates were able to convert glutamic acid into glutamine, a compound which could also act as an amino-group donor in some transamination reactions. 3. A glutamate-cytochrome c reductase system which involved diphosphopyridine nucleotide was present in fat-body. 4. Fat-body contained an active arginase, but urease could not be detected. A D-amino-acid oxidase was present, together with a less active L-amino-acid oxidase. 5. In general, it appears that amino-acid metabolism in the locust resembles that in higher animals.

Pea aphid promotes amino acid metabolism both inMedicago truncatulaand bacteriocytes to favor aphid population growth under elevated CO2

2013 ◽  
Vol 19 (10) ◽  
pp. 3210-3223 ◽  
Author(s):  
Huijuan Guo ◽  
Yucheng Sun ◽  
Yuefei Li ◽  
Bin Tong ◽  
Marvin Harris ◽  
...  
Keyword(s):  
Amino Acid ◽  
Population Growth ◽  
Elevated Co2 ◽  
Amino Acid Metabolism ◽  
Acid Metabolism ◽  
Pea Aphid ◽  
Aphid Population

Amino Acid Metabolism

1979 ◽  
Vol 7 (1) ◽  
pp. 261-262
Author(s):  
E. V. ROWSELL
Keyword(s):  
Amino Acid ◽  
Amino Acid Metabolism ◽  
Acid Metabolism

Effect of intravenous bicarbonate administration on postoperative amino acid metabolism

1985 ◽  
Vol 4 ◽  
pp. 141-146 ◽  
Author(s):  
K VESTERBERG ◽  
J BERGSTROM ◽  
P FURST ◽  
U LEANDER ◽  
E VINNARS
Keyword(s):  
Amino Acid ◽  
Amino Acid Metabolism ◽  
Acid Metabolism

Different sensitivity of glucose and amino acid metabolism to insulin in NIDDM

Diabetes ◽  
1993 ◽  
Vol 42 (12) ◽  
pp. 1868-1877 ◽  
Author(s):  
L. Luzi ◽  
A. S. Petrides ◽  
R. A. De Fronzo
Keyword(s):  
Amino Acid ◽  
Amino Acid Metabolism ◽  
Acid Metabolism
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