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nlp 22  (Addgene inc)


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    Addgene inc nlp 22
    <t>nlp-22</t> is expressed in dynamic fashion in the RIA interneurons. ( a ) mRNA expression during larval development. Expression levels cycle in synchrony with each lethargus stage. Yellow circles depict each lethargus stage, as defined by cessation of feeding of the animals (Biological replicates per time point ≥3, technical replicates = 2 for each biological replicate; Error bars represent s.e.m.). ( b ) nlp-22 expression is increased in response to lin-42 over-expression during the adult stage. (*p<0.05, ** p<0.005, Student’s two-tailed t -Test, Biological replicates per condition ≥5, technical replicates = 2 for each biological replicate; Error bars represent s.e.m.). ( c ) An nlp-22 transcriptional GFP reporter is expressed in the RIA neurons (arrow). Intestinal auto-fluorescence is also observed (arrow head). Scale Bar = 5μM.
    Nlp 22, supplied by Addgene inc, used in various techniques. Bioz Stars score: 88/100, based on 2 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/nlp 22/product/Addgene inc
    Average 88 stars, based on 2 article reviews
    nlp 22 - by Bioz Stars, 2026-03
    88/100 stars

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    1) Product Images from "The neuropeptide NLP-22 regulates a sleep-like state in Caenorhabditis elegans"

    Article Title: The neuropeptide NLP-22 regulates a sleep-like state in Caenorhabditis elegans

    Journal: Nature communications

    doi: 10.1038/ncomms3846

    nlp-22 is expressed in dynamic fashion in the RIA interneurons. ( a ) mRNA expression during larval development. Expression levels cycle in synchrony with each lethargus stage. Yellow circles depict each lethargus stage, as defined by cessation of feeding of the animals (Biological replicates per time point ≥3, technical replicates = 2 for each biological replicate; Error bars represent s.e.m.). ( b ) nlp-22 expression is increased in response to lin-42 over-expression during the adult stage. (*p<0.05, ** p<0.005, Student’s two-tailed t -Test, Biological replicates per condition ≥5, technical replicates = 2 for each biological replicate; Error bars represent s.e.m.). ( c ) An nlp-22 transcriptional GFP reporter is expressed in the RIA neurons (arrow). Intestinal auto-fluorescence is also observed (arrow head). Scale Bar = 5μM.
    Figure Legend Snippet: nlp-22 is expressed in dynamic fashion in the RIA interneurons. ( a ) mRNA expression during larval development. Expression levels cycle in synchrony with each lethargus stage. Yellow circles depict each lethargus stage, as defined by cessation of feeding of the animals (Biological replicates per time point ≥3, technical replicates = 2 for each biological replicate; Error bars represent s.e.m.). ( b ) nlp-22 expression is increased in response to lin-42 over-expression during the adult stage. (*p<0.05, ** p<0.005, Student’s two-tailed t -Test, Biological replicates per condition ≥5, technical replicates = 2 for each biological replicate; Error bars represent s.e.m.). ( c ) An nlp-22 transcriptional GFP reporter is expressed in the RIA neurons (arrow). Intestinal auto-fluorescence is also observed (arrow head). Scale Bar = 5μM.

    Techniques Used: Expressing, Over Expression, Two Tailed Test, Fluorescence

    NLP-22 induces behavioral quiescence. ( a ) Gene and protein structure of nlp-22 including over-expression construct. 2.5 hours after nlp-22 induction, animals show reduced movement ( b ) and feeding ( c ) relative to control animals over-expressing GFP (strain: TJ375). ( c ) Removing the signal sequence, or mutating the KR or FRPG eliminates the ability of NLP-22 to reduce pumping rate (**p<0.0001, Student’s two-tailed t -Test, N≥20). ( d ) Animals over-expressing nlp-22 cease pumping, but recover 9 hours after heat-shock (*p<0.001, **p<0.0001, Fisher’s exact test, N≥20 animals, 2 trials; Error bars represent s.e.m.).
    Figure Legend Snippet: NLP-22 induces behavioral quiescence. ( a ) Gene and protein structure of nlp-22 including over-expression construct. 2.5 hours after nlp-22 induction, animals show reduced movement ( b ) and feeding ( c ) relative to control animals over-expressing GFP (strain: TJ375). ( c ) Removing the signal sequence, or mutating the KR or FRPG eliminates the ability of NLP-22 to reduce pumping rate (**p<0.0001, Student’s two-tailed t -Test, N≥20). ( d ) Animals over-expressing nlp-22 cease pumping, but recover 9 hours after heat-shock (*p<0.001, **p<0.0001, Fisher’s exact test, N≥20 animals, 2 trials; Error bars represent s.e.m.).

    Techniques Used: Over Expression, Construct, Expressing, Sequencing, Two Tailed Test

    Quiescence induced by nlp-22 OE resembles lethargus quiescence. ( a ) Animals that over-express nlp-22 (strain: NQ251) are less responsive to chemical (1-octanol) and optical (blue light) stimulation than control animals that over-express GFP (strain: TJ375) (**p<0.0001, Student’s two-tailed t -Test, N≥20; Error bars represent s.e.m.). ( b ) Over-expressing nlp-22 via a mild heat shock, such that full quiescence is not induced, results in increased backwards movement. White, dark gray, and light gray denote forward, backwards, and no movement, respectively. The average fraction of time spent moving forward or moving backward in a 120s window for nlp-22 over-expressing animals is significantly different from WT worms (*p<0.001. **p<0.0001, Student’s two-tailed t -Test, N=20). In addition to the bias for backwards motion, nlp-22 over-expressing animals also moved significantly less than WT animals (**p<0.0001, Student’s two-tailed t -Test, N=20).
    Figure Legend Snippet: Quiescence induced by nlp-22 OE resembles lethargus quiescence. ( a ) Animals that over-express nlp-22 (strain: NQ251) are less responsive to chemical (1-octanol) and optical (blue light) stimulation than control animals that over-express GFP (strain: TJ375) (**p<0.0001, Student’s two-tailed t -Test, N≥20; Error bars represent s.e.m.). ( b ) Over-expressing nlp-22 via a mild heat shock, such that full quiescence is not induced, results in increased backwards movement. White, dark gray, and light gray denote forward, backwards, and no movement, respectively. The average fraction of time spent moving forward or moving backward in a 120s window for nlp-22 over-expressing animals is significantly different from WT worms (*p<0.001. **p<0.0001, Student’s two-tailed t -Test, N=20). In addition to the bias for backwards motion, nlp-22 over-expressing animals also moved significantly less than WT animals (**p<0.0001, Student’s two-tailed t -Test, N=20).

    Techniques Used: Two Tailed Test, Expressing

    nlp-22 is required for normal quiescence during lethargus. ( a ) Fraction of quiescence in a 10-minute moving window in a wild-type animal, an nlp-22(gk509904) mutant, and an nlp-22 ( gk509904 ) mutant carrying an nlp-22 genomic rescuing transgene. The x-axis is hours from the start of recording in the late third larval stage. ( b ) Quiescence in animals expressing double stranded nlp-22 RNA in the hypodermis and in the RIA neurons. Average quiescence (*p<0.05, **p<0.01, ***p<0.001, Student’s two-tailed t -Test; N≥10, Error bars represent s.e.m.), ( c ) and response latencies to blue light ( d ) during fourth larval stage lethargus (***p<0.001, Student’s two-tailed t -Test; N≥28 animals, Error bars represent s.e.m.).
    Figure Legend Snippet: nlp-22 is required for normal quiescence during lethargus. ( a ) Fraction of quiescence in a 10-minute moving window in a wild-type animal, an nlp-22(gk509904) mutant, and an nlp-22 ( gk509904 ) mutant carrying an nlp-22 genomic rescuing transgene. The x-axis is hours from the start of recording in the late third larval stage. ( b ) Quiescence in animals expressing double stranded nlp-22 RNA in the hypodermis and in the RIA neurons. Average quiescence (*p<0.05, **p<0.01, ***p<0.001, Student’s two-tailed t -Test; N≥10, Error bars represent s.e.m.), ( c ) and response latencies to blue light ( d ) during fourth larval stage lethargus (***p<0.001, Student’s two-tailed t -Test; N≥28 animals, Error bars represent s.e.m.).

    Techniques Used: Mutagenesis, Expressing, Two Tailed Test

    NLP-22-induced quiescence requires the protein kinase A subunit KIN-2. Feeding ( a ) and locomotion ( b ) quiescence induced by nlp-22 over-expression is impaired in kin-2 mutants (*p<0.0001, Fisher’s exact test, N>20 animals, 2 trials; Error bars represent s.e.m.). Unfilled bars represent animals of genotype qnIs142 [P hsp-16.2:nlp-22; P hsp-16.2:gfp; P myo-2:mCherry; unc-119 ( + )] and filled bars represent animals of genotype qnIs142; kin-2 ( ce179 )X.
    Figure Legend Snippet: NLP-22-induced quiescence requires the protein kinase A subunit KIN-2. Feeding ( a ) and locomotion ( b ) quiescence induced by nlp-22 over-expression is impaired in kin-2 mutants (*p<0.0001, Fisher’s exact test, N>20 animals, 2 trials; Error bars represent s.e.m.). Unfilled bars represent animals of genotype qnIs142 [P hsp-16.2:nlp-22; P hsp-16.2:gfp; P myo-2:mCherry; unc-119 ( + )] and filled bars represent animals of genotype qnIs142; kin-2 ( ce179 )X.

    Techniques Used: Over Expression

    NLP-22 is similar to Neuromedin S. ( a ) Alignment of NLP-22 preproprotein with orthologs from four nematode species. High conservation (gray box) is observed in the predicted neuropeptide sequence. ( b ) Amino acid sequence similarities (gray boxes) between NLP-22 and vertebrate Neuromedin S peptides. The preproprotein structure of human Neuromedin S and NLP-22 is also shown. Each has an N-terminal signal sequence and a single, c-terminal peptide. The preproprotein is drawn to scale (Bar = 10 Amino Acids) ( c ) Predicted structures of NLP-22 and of NMS. The conserved GR dipeptide and FRP tripeptide motifs are shown in white.
    Figure Legend Snippet: NLP-22 is similar to Neuromedin S. ( a ) Alignment of NLP-22 preproprotein with orthologs from four nematode species. High conservation (gray box) is observed in the predicted neuropeptide sequence. ( b ) Amino acid sequence similarities (gray boxes) between NLP-22 and vertebrate Neuromedin S peptides. The preproprotein structure of human Neuromedin S and NLP-22 is also shown. Each has an N-terminal signal sequence and a single, c-terminal peptide. The preproprotein is drawn to scale (Bar = 10 Amino Acids) ( c ) Predicted structures of NLP-22 and of NMS. The conserved GR dipeptide and FRP tripeptide motifs are shown in white.

    Techniques Used: Sequencing

    Model for role of nlp-22 and RIA in sleep-like quiescence regulation. LIN-42 functions in as yet unidentified larval clock cells to regulate nlp-22 expression as well as other quiescence-regulatory factors. Release of NLP-22 neuropeptide promotes sleep-like behavior via a reduction of protein kinase A (PKA) activity. RIA membrane depolarization (marked with the letter V) results in the release of an unidentified wake-promoting neurotransmitter.
    Figure Legend Snippet: Model for role of nlp-22 and RIA in sleep-like quiescence regulation. LIN-42 functions in as yet unidentified larval clock cells to regulate nlp-22 expression as well as other quiescence-regulatory factors. Release of NLP-22 neuropeptide promotes sleep-like behavior via a reduction of protein kinase A (PKA) activity. RIA membrane depolarization (marked with the letter V) results in the release of an unidentified wake-promoting neurotransmitter.

    Techniques Used: Expressing, Activity Assay



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    Image Search Results


    nlp-22 is expressed in dynamic fashion in the RIA interneurons. ( a ) mRNA expression during larval development. Expression levels cycle in synchrony with each lethargus stage. Yellow circles depict each lethargus stage, as defined by cessation of feeding of the animals (Biological replicates per time point ≥3, technical replicates = 2 for each biological replicate; Error bars represent s.e.m.). ( b ) nlp-22 expression is increased in response to lin-42 over-expression during the adult stage. (*p<0.05, ** p<0.005, Student’s two-tailed t -Test, Biological replicates per condition ≥5, technical replicates = 2 for each biological replicate; Error bars represent s.e.m.). ( c ) An nlp-22 transcriptional GFP reporter is expressed in the RIA neurons (arrow). Intestinal auto-fluorescence is also observed (arrow head). Scale Bar = 5μM.

    Journal: Nature communications

    Article Title: The neuropeptide NLP-22 regulates a sleep-like state in Caenorhabditis elegans

    doi: 10.1038/ncomms3846

    Figure Lengend Snippet: nlp-22 is expressed in dynamic fashion in the RIA interneurons. ( a ) mRNA expression during larval development. Expression levels cycle in synchrony with each lethargus stage. Yellow circles depict each lethargus stage, as defined by cessation of feeding of the animals (Biological replicates per time point ≥3, technical replicates = 2 for each biological replicate; Error bars represent s.e.m.). ( b ) nlp-22 expression is increased in response to lin-42 over-expression during the adult stage. (*p<0.05, ** p<0.005, Student’s two-tailed t -Test, Biological replicates per condition ≥5, technical replicates = 2 for each biological replicate; Error bars represent s.e.m.). ( c ) An nlp-22 transcriptional GFP reporter is expressed in the RIA neurons (arrow). Intestinal auto-fluorescence is also observed (arrow head). Scale Bar = 5μM.

    Article Snippet: For nlp - 22 over-expression, the promoter of hsp-16.2 was amplified from the vector pPD49.83 (obtained from Addgene) and fused to the genomic sequence of nlp-22 (+1 to +1451) (where nucleotide number refers to the nucleotide position relative to the start site of translation).

    Techniques: Expressing, Over Expression, Two Tailed Test, Fluorescence

    NLP-22 induces behavioral quiescence. ( a ) Gene and protein structure of nlp-22 including over-expression construct. 2.5 hours after nlp-22 induction, animals show reduced movement ( b ) and feeding ( c ) relative to control animals over-expressing GFP (strain: TJ375). ( c ) Removing the signal sequence, or mutating the KR or FRPG eliminates the ability of NLP-22 to reduce pumping rate (**p<0.0001, Student’s two-tailed t -Test, N≥20). ( d ) Animals over-expressing nlp-22 cease pumping, but recover 9 hours after heat-shock (*p<0.001, **p<0.0001, Fisher’s exact test, N≥20 animals, 2 trials; Error bars represent s.e.m.).

    Journal: Nature communications

    Article Title: The neuropeptide NLP-22 regulates a sleep-like state in Caenorhabditis elegans

    doi: 10.1038/ncomms3846

    Figure Lengend Snippet: NLP-22 induces behavioral quiescence. ( a ) Gene and protein structure of nlp-22 including over-expression construct. 2.5 hours after nlp-22 induction, animals show reduced movement ( b ) and feeding ( c ) relative to control animals over-expressing GFP (strain: TJ375). ( c ) Removing the signal sequence, or mutating the KR or FRPG eliminates the ability of NLP-22 to reduce pumping rate (**p<0.0001, Student’s two-tailed t -Test, N≥20). ( d ) Animals over-expressing nlp-22 cease pumping, but recover 9 hours after heat-shock (*p<0.001, **p<0.0001, Fisher’s exact test, N≥20 animals, 2 trials; Error bars represent s.e.m.).

    Article Snippet: For nlp - 22 over-expression, the promoter of hsp-16.2 was amplified from the vector pPD49.83 (obtained from Addgene) and fused to the genomic sequence of nlp-22 (+1 to +1451) (where nucleotide number refers to the nucleotide position relative to the start site of translation).

    Techniques: Over Expression, Construct, Expressing, Sequencing, Two Tailed Test

    Quiescence induced by nlp-22 OE resembles lethargus quiescence. ( a ) Animals that over-express nlp-22 (strain: NQ251) are less responsive to chemical (1-octanol) and optical (blue light) stimulation than control animals that over-express GFP (strain: TJ375) (**p<0.0001, Student’s two-tailed t -Test, N≥20; Error bars represent s.e.m.). ( b ) Over-expressing nlp-22 via a mild heat shock, such that full quiescence is not induced, results in increased backwards movement. White, dark gray, and light gray denote forward, backwards, and no movement, respectively. The average fraction of time spent moving forward or moving backward in a 120s window for nlp-22 over-expressing animals is significantly different from WT worms (*p<0.001. **p<0.0001, Student’s two-tailed t -Test, N=20). In addition to the bias for backwards motion, nlp-22 over-expressing animals also moved significantly less than WT animals (**p<0.0001, Student’s two-tailed t -Test, N=20).

    Journal: Nature communications

    Article Title: The neuropeptide NLP-22 regulates a sleep-like state in Caenorhabditis elegans

    doi: 10.1038/ncomms3846

    Figure Lengend Snippet: Quiescence induced by nlp-22 OE resembles lethargus quiescence. ( a ) Animals that over-express nlp-22 (strain: NQ251) are less responsive to chemical (1-octanol) and optical (blue light) stimulation than control animals that over-express GFP (strain: TJ375) (**p<0.0001, Student’s two-tailed t -Test, N≥20; Error bars represent s.e.m.). ( b ) Over-expressing nlp-22 via a mild heat shock, such that full quiescence is not induced, results in increased backwards movement. White, dark gray, and light gray denote forward, backwards, and no movement, respectively. The average fraction of time spent moving forward or moving backward in a 120s window for nlp-22 over-expressing animals is significantly different from WT worms (*p<0.001. **p<0.0001, Student’s two-tailed t -Test, N=20). In addition to the bias for backwards motion, nlp-22 over-expressing animals also moved significantly less than WT animals (**p<0.0001, Student’s two-tailed t -Test, N=20).

    Article Snippet: For nlp - 22 over-expression, the promoter of hsp-16.2 was amplified from the vector pPD49.83 (obtained from Addgene) and fused to the genomic sequence of nlp-22 (+1 to +1451) (where nucleotide number refers to the nucleotide position relative to the start site of translation).

    Techniques: Two Tailed Test, Expressing

    nlp-22 is required for normal quiescence during lethargus. ( a ) Fraction of quiescence in a 10-minute moving window in a wild-type animal, an nlp-22(gk509904) mutant, and an nlp-22 ( gk509904 ) mutant carrying an nlp-22 genomic rescuing transgene. The x-axis is hours from the start of recording in the late third larval stage. ( b ) Quiescence in animals expressing double stranded nlp-22 RNA in the hypodermis and in the RIA neurons. Average quiescence (*p<0.05, **p<0.01, ***p<0.001, Student’s two-tailed t -Test; N≥10, Error bars represent s.e.m.), ( c ) and response latencies to blue light ( d ) during fourth larval stage lethargus (***p<0.001, Student’s two-tailed t -Test; N≥28 animals, Error bars represent s.e.m.).

    Journal: Nature communications

    Article Title: The neuropeptide NLP-22 regulates a sleep-like state in Caenorhabditis elegans

    doi: 10.1038/ncomms3846

    Figure Lengend Snippet: nlp-22 is required for normal quiescence during lethargus. ( a ) Fraction of quiescence in a 10-minute moving window in a wild-type animal, an nlp-22(gk509904) mutant, and an nlp-22 ( gk509904 ) mutant carrying an nlp-22 genomic rescuing transgene. The x-axis is hours from the start of recording in the late third larval stage. ( b ) Quiescence in animals expressing double stranded nlp-22 RNA in the hypodermis and in the RIA neurons. Average quiescence (*p<0.05, **p<0.01, ***p<0.001, Student’s two-tailed t -Test; N≥10, Error bars represent s.e.m.), ( c ) and response latencies to blue light ( d ) during fourth larval stage lethargus (***p<0.001, Student’s two-tailed t -Test; N≥28 animals, Error bars represent s.e.m.).

    Article Snippet: For nlp - 22 over-expression, the promoter of hsp-16.2 was amplified from the vector pPD49.83 (obtained from Addgene) and fused to the genomic sequence of nlp-22 (+1 to +1451) (where nucleotide number refers to the nucleotide position relative to the start site of translation).

    Techniques: Mutagenesis, Expressing, Two Tailed Test

    NLP-22-induced quiescence requires the protein kinase A subunit KIN-2. Feeding ( a ) and locomotion ( b ) quiescence induced by nlp-22 over-expression is impaired in kin-2 mutants (*p<0.0001, Fisher’s exact test, N>20 animals, 2 trials; Error bars represent s.e.m.). Unfilled bars represent animals of genotype qnIs142 [P hsp-16.2:nlp-22; P hsp-16.2:gfp; P myo-2:mCherry; unc-119 ( + )] and filled bars represent animals of genotype qnIs142; kin-2 ( ce179 )X.

    Journal: Nature communications

    Article Title: The neuropeptide NLP-22 regulates a sleep-like state in Caenorhabditis elegans

    doi: 10.1038/ncomms3846

    Figure Lengend Snippet: NLP-22-induced quiescence requires the protein kinase A subunit KIN-2. Feeding ( a ) and locomotion ( b ) quiescence induced by nlp-22 over-expression is impaired in kin-2 mutants (*p<0.0001, Fisher’s exact test, N>20 animals, 2 trials; Error bars represent s.e.m.). Unfilled bars represent animals of genotype qnIs142 [P hsp-16.2:nlp-22; P hsp-16.2:gfp; P myo-2:mCherry; unc-119 ( + )] and filled bars represent animals of genotype qnIs142; kin-2 ( ce179 )X.

    Article Snippet: For nlp - 22 over-expression, the promoter of hsp-16.2 was amplified from the vector pPD49.83 (obtained from Addgene) and fused to the genomic sequence of nlp-22 (+1 to +1451) (where nucleotide number refers to the nucleotide position relative to the start site of translation).

    Techniques: Over Expression

    NLP-22 is similar to Neuromedin S. ( a ) Alignment of NLP-22 preproprotein with orthologs from four nematode species. High conservation (gray box) is observed in the predicted neuropeptide sequence. ( b ) Amino acid sequence similarities (gray boxes) between NLP-22 and vertebrate Neuromedin S peptides. The preproprotein structure of human Neuromedin S and NLP-22 is also shown. Each has an N-terminal signal sequence and a single, c-terminal peptide. The preproprotein is drawn to scale (Bar = 10 Amino Acids) ( c ) Predicted structures of NLP-22 and of NMS. The conserved GR dipeptide and FRP tripeptide motifs are shown in white.

    Journal: Nature communications

    Article Title: The neuropeptide NLP-22 regulates a sleep-like state in Caenorhabditis elegans

    doi: 10.1038/ncomms3846

    Figure Lengend Snippet: NLP-22 is similar to Neuromedin S. ( a ) Alignment of NLP-22 preproprotein with orthologs from four nematode species. High conservation (gray box) is observed in the predicted neuropeptide sequence. ( b ) Amino acid sequence similarities (gray boxes) between NLP-22 and vertebrate Neuromedin S peptides. The preproprotein structure of human Neuromedin S and NLP-22 is also shown. Each has an N-terminal signal sequence and a single, c-terminal peptide. The preproprotein is drawn to scale (Bar = 10 Amino Acids) ( c ) Predicted structures of NLP-22 and of NMS. The conserved GR dipeptide and FRP tripeptide motifs are shown in white.

    Article Snippet: For nlp - 22 over-expression, the promoter of hsp-16.2 was amplified from the vector pPD49.83 (obtained from Addgene) and fused to the genomic sequence of nlp-22 (+1 to +1451) (where nucleotide number refers to the nucleotide position relative to the start site of translation).

    Techniques: Sequencing

    Model for role of nlp-22 and RIA in sleep-like quiescence regulation. LIN-42 functions in as yet unidentified larval clock cells to regulate nlp-22 expression as well as other quiescence-regulatory factors. Release of NLP-22 neuropeptide promotes sleep-like behavior via a reduction of protein kinase A (PKA) activity. RIA membrane depolarization (marked with the letter V) results in the release of an unidentified wake-promoting neurotransmitter.

    Journal: Nature communications

    Article Title: The neuropeptide NLP-22 regulates a sleep-like state in Caenorhabditis elegans

    doi: 10.1038/ncomms3846

    Figure Lengend Snippet: Model for role of nlp-22 and RIA in sleep-like quiescence regulation. LIN-42 functions in as yet unidentified larval clock cells to regulate nlp-22 expression as well as other quiescence-regulatory factors. Release of NLP-22 neuropeptide promotes sleep-like behavior via a reduction of protein kinase A (PKA) activity. RIA membrane depolarization (marked with the letter V) results in the release of an unidentified wake-promoting neurotransmitter.

    Article Snippet: For nlp - 22 over-expression, the promoter of hsp-16.2 was amplified from the vector pPD49.83 (obtained from Addgene) and fused to the genomic sequence of nlp-22 (+1 to +1451) (where nucleotide number refers to the nucleotide position relative to the start site of translation).

    Techniques: Expressing, Activity Assay