Ambient

Molecular Formula : C21 H26 O2

Molecular Formula : C23 H30 O2

Molecular Formula : C23 H30 O2

Molecular Formula : C23 H30 O2

Molecular Formula : C21 D7 H19 O2

Molecular Formula : C21 D7 H19 O2

Molecular Formula : C21 D7 H19 O2

Molecular Formula : C20 H28 O3

Molecular Formula : C20 H28 O3

Molecular Formula : C20 H28 O3

Molecular Formula : C26H38O4

Molecular Formula : C26H38O4

Molecular Formula : C26H38O4

Molecular Formula : C21 H24 O2

Molecular Formula : C21 H24 O2

Molecular Formula : C25 H24 N4 O2

GenScript Rabbit Anti-GFP Polyclonal Antibody reacts with GFP fusion proteins. The antibody also reacts with other variants of GFP, such as CFP, YFP, eGFP and GFPuv.

Molecular Formula : C22H24O4S

Molecular Formula : C22H24O4S

Molecular Formula : C22H24O4S

Growth Hormone (GH) is a member of the somatotropin/prolactin family which play an important role in growth control. The human GH cDNA encodes a 217 amino acid (aa), and the first 26 aa is a signal peptide. By alternative splicing, at least four isoforms of GH have been identified. The major role of GH in stimulating body growth is to stimulate the liver and other tissues to secrete IGF-1. GH stimulates both the differentiation and proliferation of myoblasts, and also stimulates amino acid uptake and protein synthesis in muscle and other tissues.

Growth Hormone (GH) is a member of the somatotropin/prolactin family which play an important role in growth control. The human GH cDNA encodes a 217 amino acid (aa), and the first 26 aa is a signal peptide. By alternative splicing, at least four isoforms of GH have been identified. The major role of GH in stimulating body growth is to stimulate the liver and other tissues to secrete IGF-1. GH stimulates both the differentiation and proliferation of myoblasts, and also stimulates amino acid uptake and protein synthesis in muscle and other tissues.

Growth Hormone (GH) is a member of the somatotropin/prolactin family which play an important role in growth control. The human GH cDNA encodes a 217 amino acid (aa), and the first 26 aa is a signal peptide. By alternative splicing, at least four isoforms of GH have been identified. The major role of GH in stimulating body growth is to stimulate the liver and other tissues to secrete IGF-1. GH stimulates both the differentiation and proliferation of myoblasts, and also stimulates amino acid uptake and protein synthesis in muscle and other tissues.

Growth Hormone (GH) is a member of the somatotropin/prolactin family which play an important role in growth control. The human GH cDNA encodes a 217 amino acid (aa), and the first 26 aa is a signal peptide. By alternative splicing, at least four isoforms of GH have been identified. The major role of GH in stimulating body growth is to stimulate the liver and other tissues to secrete IGF-1. GH stimulates both the differentiation and proliferation of myoblasts, and also stimulates amino acid uptake and protein synthesis in muscle and other tissues.

Growth Hormone (GH) is a member of the somatotropin/prolactin family which play an important role in growth control. The human GH cDNA encodes a 217 amino acid (aa), and the first 26 aa is a signal peptide. By alternative splicing, at least four isoforms of GH have been identified. The major role of GH in stimulating body growth is to stimulate the liver and other tissues to secrete IGF-1. GH stimulates both the differentiation and proliferation of myoblasts, and also stimulates amino acid uptake and protein synthesis in muscle and other tissues.

Growth Hormone (GH) is a member of the somatotropin/prolactin family which play an important role in growth control. The human GH cDNA encodes a 217 amino acid (aa), and the first 26 aa is a signal peptide. By alternative splicing, at least four isoforms of GH have been identified. The major role of GH in stimulating body growth is to stimulate the liver and other tissues to secrete IGF-1. GH stimulates both the differentiation and proliferation of myoblasts, and also stimulates amino acid uptake and protein synthesis in muscle and other tissues.

Growth Hormone (GH), is a member of the somatotropin / prolactin family of hormones which play an important role in growth control. The gene, along with four other related genes, is located at the growth hormone locus on chromosome 17 where they are interspersed in the same transcriptional orientation; an arrangement which is thought to have evolved by a series of gene duplications. The five genes share a remarkably high degree of sequence identity. Alternative splicing generates additional isoforms of each of the five growth hormones, leading to further diversity and potential for specialization. This particular family member is expressed in the pituitary but not in placental tissue as is the case for the other four genes in the growth hormone locus. Mutations in or deletions of the gene lead to growth hormone deficiency and short stature.

Growth Hormone (GH), is a member of the somatotropin / prolactin family of hormones which play an important role in growth control. The gene, along with four other related genes, is located at the growth hormone locus on chromosome 17 where they are interspersed in the same transcriptional orientation; an arrangement which is thought to have evolved by a series of gene duplications. The five genes share a remarkably high degree of sequence identity. Alternative splicing generates additional isoforms of each of the five growth hormones, leading to further diversity and potential for specialization. This particular family member is expressed in the pituitary but not in placental tissue as is the case for the other four genes in the growth hormone locus. Mutations in or deletions of the gene lead to growth hormone deficiency and short stature.

Growth Hormone (GH), is a member of the somatotropin / prolactin family of hormones which play an important role in growth control. The gene, along with four other related genes, is located at the growth hormone locus on chromosome 17 where they are interspersed in the same transcriptional orientation; an arrangement which is thought to have evolved by a series of gene duplications. The five genes share a remarkably high degree of sequence identity. Alternative splicing generates additional isoforms of each of the five growth hormones, leading to further diversity and potential for specialization. This particular family member is expressed in the pituitary but not in placental tissue as is the case for the other four genes in the growth hormone locus. Mutations in or deletions of the gene lead to growth hormone deficiency and short stature.

Molecular Formula : C149H249N47O42 . x(C2HF3O2)

Molecular Formula : C149H249N47O42 . x(C2HF3O2)

Molecular Formula : C149H249N47O42 . x(C2HF3O2)

Molecular Formula : C149H249N47O42 . x(CH3COOH)

Molecular Formula : C149H249N47O42 . x(CH3COOH)

Molecular Formula : C32H50N10O5 . xC2HF3O2

Molecular Formula : C32H50N10O5 . xC2HF3O2

Molecular Formula : C32H50N10O5 . xC2HF3O2

Molecular Formula : C34H37N7O4 .xC2HF3O2

Molecular Formula : C34H37N7O4 .xC2HF3O2

Molecular Formula : C34H37N7O4 .xC2HF3O2

Molecular Formula : C43H45N7O7 .xC2HF3O2

Molecular Formula : C43H45N7O7 .xC2HF3O2

Molecular Formula : C43H45N7O7 .xC2HF3O2

Molecular Formula : C19H22O6

Molecular Formula : C19H22O6

Molecular Formula : 2 C11 H14 N2 . H Cl

Molecular Formula : 2 C11 H14 N2 . H Cl

Molecular Formula : 2 C11 H14 N2 . H Cl

Molecular Formula : C22 H26 O8

Molecular Formula : C22 H26 O8